/* Copyright (c) 2003, 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 #include #include #include #include #include #include #include #include #ifdef _MSC_VER #pragma warning(push, 1) #endif #include #include #include #include #ifdef _MSC_VER #pragma warning(pop) #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/invariant_check.hpp" #if defined(_MSC_VER) && _MSC_VER < 1300 namespace std { using ::srand; using ::isalnum; }; #endif using boost::bind; namespace libtorrent { namespace { void throw_invalid_handle() { throw invalid_handle(); } template Ret call_member( detail::session_impl* ses , detail::checker_impl* chk , sha1_hash const& hash , F f) { if (ses == 0) throw_invalid_handle(); if (chk) { boost::mutex::scoped_lock l(chk->m_mutex); detail::piece_checker_data* d = chk->find_torrent(hash); if (d != 0) return f(*d->torrent_ptr); } { boost::mutex::scoped_lock l(ses->m_mutex); torrent* t = ses->find_torrent(hash); if (t != 0) return f(*t); } throw invalid_handle(); } } #ifndef NDEBUG void torrent_handle::check_invariant() const { assert((m_ses == 0 && m_chk == 0) || (m_ses != 0)); } #endif void torrent_handle::set_max_uploads(int max_uploads) const { INVARIANT_CHECK; assert(max_uploads >= 2 || max_uploads == -1); call_member(m_ses, m_chk, m_info_hash , bind(&torrent::set_max_uploads, _1, max_uploads)); } void torrent_handle::use_interface(const char* net_interface) const { INVARIANT_CHECK; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::use_interface, _1, net_interface)); } void torrent_handle::set_max_connections(int max_connections) const { INVARIANT_CHECK; assert(max_connections >= 2 || max_connections == -1); call_member(m_ses, m_chk, m_info_hash , bind(&torrent::set_max_connections, _1, max_connections)); } void torrent_handle::set_upload_limit(int limit) const { INVARIANT_CHECK; assert(limit >= -1); call_member(m_ses, m_chk, m_info_hash , bind(&torrent::set_upload_limit, _1, limit)); } void torrent_handle::set_download_limit(int limit) const { INVARIANT_CHECK; assert(limit >= -1); call_member(m_ses, m_chk, m_info_hash , bind(&torrent::set_download_limit, _1, limit)); } bool torrent_handle::move_storage( boost::filesystem::path const& save_path) const { INVARIANT_CHECK; return call_member(m_ses, m_chk, m_info_hash , bind(&torrent::move_storage, _1, save_path)); } bool torrent_handle::has_metadata() const { INVARIANT_CHECK; return call_member(m_ses, m_chk, m_info_hash , bind(&torrent::valid_metadata, _1)); } bool torrent_handle::is_seed() const { INVARIANT_CHECK; return call_member(m_ses, m_chk, m_info_hash , bind(&torrent::is_seed, _1)); } bool torrent_handle::is_paused() const { INVARIANT_CHECK; return call_member(m_ses, m_chk, m_info_hash , bind(&torrent::is_paused, _1)); } void torrent_handle::pause() const { INVARIANT_CHECK; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::pause, _1)); } void torrent_handle::resume() const { INVARIANT_CHECK; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::resume, _1)); } void torrent_handle::set_tracker_login(std::string const& name , std::string const& password) const { INVARIANT_CHECK; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::set_tracker_login, _1, name, password)); } torrent_status torrent_handle::status() const { INVARIANT_CHECK; if (m_ses == 0) throw_invalid_handle(); if (m_chk) { boost::mutex::scoped_lock l(m_chk->m_mutex); detail::piece_checker_data* d = m_chk->find_torrent(m_info_hash); if (d != 0) { torrent_status st; if (d->processing) { if (d->torrent_ptr->is_allocating()) st.state = torrent_status::allocating; else st.state = torrent_status::checking_files; } else st.state = torrent_status::queued_for_checking; st.progress = d->progress; st.paused = d->torrent_ptr->is_paused(); return st; } } { boost::mutex::scoped_lock l(m_ses->m_mutex); torrent* t = m_ses->find_torrent(m_info_hash); if (t != 0) return t->status(); } throw_invalid_handle(); return torrent_status(); } void torrent_handle::filter_piece(int index, bool filter) const { INVARIANT_CHECK; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::filter_piece, _1, index, filter)); } void torrent_handle::filter_pieces(std::vector const& pieces) const { INVARIANT_CHECK; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::filter_pieces, _1, pieces)); } bool torrent_handle::is_piece_filtered(int index) const { INVARIANT_CHECK; return call_member(m_ses, m_chk, m_info_hash , bind(&torrent::is_piece_filtered, _1, index)); } std::vector torrent_handle::filtered_pieces() const { INVARIANT_CHECK; std::vector ret; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::filtered_pieces, _1, boost::ref(ret))); return ret; } void torrent_handle::filter_file(int index, bool filter) const { INVARIANT_CHECK; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::filter_file, _1, index, filter)); } void torrent_handle::filter_files(std::vector const& files) const { INVARIANT_CHECK; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::filter_files, _1, files)); } std::vector const& torrent_handle::trackers() const { INVARIANT_CHECK; return call_member const&>(m_ses , m_chk, m_info_hash, bind(&torrent::trackers, _1)); } void torrent_handle::replace_trackers( std::vector const& urls) const { INVARIANT_CHECK; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::replace_trackers, _1, urls)); } const torrent_info& torrent_handle::get_torrent_info() const { INVARIANT_CHECK; if (!has_metadata()) throw_invalid_handle(); return call_member(m_ses, m_chk, m_info_hash , bind(&torrent::torrent_file, _1)); } bool torrent_handle::is_valid() const { INVARIANT_CHECK; if (m_ses == 0) return false; if (m_chk) { boost::mutex::scoped_lock l(m_chk->m_mutex); detail::piece_checker_data* d = m_chk->find_torrent(m_info_hash); if (d != 0) return true; } { boost::mutex::scoped_lock l(m_ses->m_mutex); torrent* t = m_ses->find_torrent(m_info_hash); if (t != 0) return true; } return false; } entry torrent_handle::write_resume_data() const { INVARIANT_CHECK; std::vector piece_index; if (m_ses == 0) return entry(); boost::mutex::scoped_lock l(m_ses->m_mutex); torrent* t = m_ses->find_torrent(m_info_hash); if (t == 0) return entry(); if (!t->valid_metadata()) return entry(); t->filesystem().export_piece_map(piece_index); entry ret(entry::dictionary_t); ret["file-format"] = "libtorrent resume file"; ret["file-version"] = 1; const sha1_hash& info_hash = t->torrent_file().info_hash(); ret["info-hash"] = std::string((char*)info_hash.begin(), (char*)info_hash.end()); ret["slots"] = entry(entry::list_t); entry::list_type& slots = ret["slots"].list(); std::copy(piece_index.begin(), piece_index.end(), std::back_inserter(slots)); const piece_picker& p = t->picker(); const std::vector& q = p.get_download_queue(); // blocks per piece int num_blocks_per_piece = static_cast(t->torrent_file().piece_length()) / t->block_size(); ret["blocks per piece"] = num_blocks_per_piece; // unfinished pieces ret["unfinished"] = entry::list_type(); entry::list_type& up = ret["unfinished"].list(); // info for each unfinished piece for (std::vector::const_iterator i = q.begin(); i != q.end(); ++i) { if (i->finished_blocks.count() == 0) continue; entry piece_struct(entry::dictionary_t); // the unfinished piece's index piece_struct["piece"] = i->index; std::string bitmask; const int num_bitmask_bytes = std::max(num_blocks_per_piece / 8, 1); for (int j = 0; j < num_bitmask_bytes; ++j) { unsigned char v = 0; for (int k = 0; k < 8; ++k) v |= i->finished_blocks[j*8+k]?(1 << k):0; bitmask.insert(bitmask.end(), v); } piece_struct["bitmask"] = bitmask; assert(t->filesystem().slot_for_piece(i->index) >= 0); unsigned long adler = t->filesystem().piece_crc( t->filesystem().slot_for_piece(i->index) , t->block_size() , i->finished_blocks); piece_struct["adler32"] = adler; // push the struct onto the unfinished-piece list up.push_back(piece_struct); } // write local peers ret["peers"] = entry::list_type(); entry::list_type& peer_list = ret["peers"].list(); for (torrent::const_peer_iterator i = t->begin(); i != t->end(); ++i) { // we cannot save remote connection // since we don't know their listen port // TODO: iterate the peers in the policy // instead, since peers may be remote // but still connectable if (!i->second->is_local()) continue; address ip = i->second->remote(); entry peer(entry::dictionary_t); peer["ip"] = ip.as_string(); peer["port"] = ip.port; peer_list.push_back(peer); } std::vector > file_sizes = get_filesizes(t->torrent_file(), t->save_path()); ret["file sizes"] = entry::list_type(); entry::list_type& fl = ret["file sizes"].list(); for (std::vector >::iterator i = file_sizes.begin(), end(file_sizes.end()); i != end; ++i) { entry::list_type p; p.push_back(entry(i->first)); p.push_back(entry(i->second)); fl.push_back(entry(p)); } return ret; } boost::filesystem::path torrent_handle::save_path() const { INVARIANT_CHECK; return call_member(m_ses, m_chk, m_info_hash , bind(&torrent::save_path, _1)); } std::vector const& torrent_handle::metadata() const { INVARIANT_CHECK; return call_member const&>(m_ses, m_chk, m_info_hash , bind(&torrent::metadata, _1)); } void torrent_handle::connect_peer(address const& adr) const { INVARIANT_CHECK; if (m_ses == 0) throw_invalid_handle(); boost::mutex::scoped_lock l(m_ses->m_mutex); torrent* t = m_ses->find_torrent(m_info_hash); if (t == 0) throw_invalid_handle(); peer_id id; std::fill(id.begin(), id.end(), 0); t->get_policy().peer_from_tracker(adr, id); } void torrent_handle::force_reannounce( boost::posix_time::time_duration duration) const { INVARIANT_CHECK; if (m_ses == 0) throw_invalid_handle(); boost::mutex::scoped_lock l(m_ses->m_mutex); torrent* t = m_ses->find_torrent(m_info_hash); if (t == 0) throw_invalid_handle(); using boost::posix_time::second_clock; t->force_tracker_request(second_clock::universal_time() + duration); } void torrent_handle::force_reannounce() const { INVARIANT_CHECK; if (m_ses == 0) throw_invalid_handle(); boost::mutex::scoped_lock l(m_ses->m_mutex); torrent* t = m_ses->find_torrent(m_info_hash); if (t == 0) throw_invalid_handle(); t->force_tracker_request(); } void torrent_handle::set_ratio(float ratio) const { INVARIANT_CHECK; assert(ratio >= 0.f); if (ratio < 1.f && ratio > 0.f) ratio = 1.f; call_member(m_ses, m_chk, m_info_hash , bind(&torrent::set_ratio, _1, ratio)); } void torrent_handle::get_peer_info(std::vector& v) const { INVARIANT_CHECK; v.clear(); if (m_ses == 0) throw_invalid_handle(); boost::mutex::scoped_lock l(m_ses->m_mutex); const torrent* t = m_ses->find_torrent(m_info_hash); if (t == 0) return; for (torrent::const_peer_iterator i = t->begin(); i != t->end(); ++i) { peer_connection* peer = i->second; // peers that haven't finished the handshake should // not be included in this list if (peer->associated_torrent() == 0) continue; v.push_back(peer_info()); peer_info& p = v.back(); const stat& statistics = peer->statistics(); p.down_speed = statistics.download_rate(); p.up_speed = statistics.upload_rate(); p.payload_down_speed = statistics.download_payload_rate(); p.payload_up_speed = statistics.upload_payload_rate(); p.id = peer->get_peer_id(); p.ip = peer->remote(); p.total_download = statistics.total_payload_download(); p.total_upload = statistics.total_payload_upload(); if (peer->m_ul_bandwidth_quota.given == std::numeric_limits::max()) p.upload_limit = -1; else p.upload_limit = peer->m_ul_bandwidth_quota.given; if (peer->m_ul_bandwidth_quota.max == std::numeric_limits::max()) p.upload_ceiling = -1; else p.upload_ceiling = peer->m_ul_bandwidth_quota.given; p.load_balancing = peer->total_free_upload(); p.download_queue_length = (int)peer->download_queue().size(); p.upload_queue_length = (int)peer->upload_queue().size(); boost::optional ret = peer->downloading_piece(); if (ret) { p.downloading_piece_index = ret->piece_index; p.downloading_block_index = ret->block_index; p.downloading_progress = ret->bytes_downloaded; p.downloading_total = ret->full_block_bytes; } else { p.downloading_piece_index = -1; p.downloading_block_index = -1; p.downloading_progress = 0; p.downloading_total = 0; } p.flags = 0; if (peer->is_interesting()) p.flags |= peer_info::interesting; if (peer->is_choked()) p.flags |= peer_info::choked; if (peer->is_peer_interested()) p.flags |= peer_info::remote_interested; if (peer->has_peer_choked()) p.flags |= peer_info::remote_choked; if (peer->support_extensions()) p.flags |= peer_info::supports_extensions; if (peer->is_local()) p.flags |= peer_info::local_connection; if (peer->is_connecting() && !peer->is_queued()) p.flags |= peer_info::connecting; if (peer->is_queued()) p.flags |= peer_info::queued; p.pieces = peer->get_bitfield(); p.seed = peer->is_seed(); } } bool torrent_handle::send_chat_message(address ip, std::string message) const { if (m_ses == 0) throw_invalid_handle(); boost::mutex::scoped_lock l(m_ses->m_mutex); const torrent* t = m_ses->find_torrent(m_info_hash); if (t == 0) return false; for (torrent::const_peer_iterator i = t->begin(); i != t->end(); ++i) { peer_connection* peer = i->second; // peers that haven't finished the handshake should // not be included in this list if (peer->associated_torrent() == 0) continue; // peers that don's support chat message extension // should not be included either if (!peer->supports_extension( peer_connection::extended_chat_message)) continue; // loop until we find the required ip address if (ip == peer->get_socket()->sender()) { // send the message peer->send_chat_message(message); return true; } } return false; } void torrent_handle::get_download_queue(std::vector& queue) const { INVARIANT_CHECK; if (m_ses == 0) throw_invalid_handle(); boost::mutex::scoped_lock l(m_ses->m_mutex); torrent* t = m_ses->find_torrent(m_info_hash); queue.clear(); if (t == 0) return; if (!t->valid_metadata()) return; const piece_picker& p = t->picker(); const std::vector& q = p.get_download_queue(); for (std::vector::const_iterator i = q.begin(); i != q.end(); ++i) { partial_piece_info pi; pi.finished_blocks = i->finished_blocks; pi.requested_blocks = i->requested_blocks; for (int j = 0; j < partial_piece_info::max_blocks_per_piece; ++j) { pi.peer[j] = i->info[j].peer; pi.num_downloads[j] = i->info[j].num_downloads; } pi.piece_index = i->index; pi.blocks_in_piece = p.blocks_in_piece(i->index); queue.push_back(pi); } } }