/* Copyright (c) 2014, 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/session.hpp" #include "libtorrent/add_torrent_params.hpp" #include "libtorrent/torrent_info.hpp" #include "libtorrent/random.hpp" #include "libtorrent/create_torrent.hpp" #include "libtorrent/alert_types.hpp" #include "libtorrent/entry.hpp" #include "libtorrent/bencode.hpp" #include "libtorrent/peer_info.hpp" #include #include "test.hpp" #include "setup_transfer.hpp" #include "settings.hpp" using namespace libtorrent; namespace lt = libtorrent; boost::shared_ptr generate_torrent() { file_storage fs; fs.add_file("test_resume/tmp1", 128 * 1024 * 8); fs.add_file("test_resume/tmp2", 128 * 1024); fs.add_file("test_resume/tmp3", 128 * 1024); lt::create_torrent t(fs, 128 * 1024, 6); t.add_tracker("http://torrent_file_tracker.com/announce"); t.add_url_seed("http://torrent_file_url_seed.com/"); int num = t.num_pieces(); TEST_CHECK(num > 0); for (int i = 0; i < num; ++i) { sha1_hash ph; for (int k = 0; k < 20; ++k) ph[k] = lt::random(); t.set_hash(i, ph); } std::vector buf; bencode(std::back_inserter(buf), t.generate()); return boost::make_shared(&buf[0], buf.size()); } std::vector generate_resume_data(torrent_info* ti , char const* file_priorities = "") { entry rd; rd["file-format"] = "libtorrent resume file"; rd["file-version"] = 1; rd["info-hash"] = ti->info_hash().to_string(); rd["blocks per piece"] = (std::max)(1, ti->piece_length() / 0x4000); rd["pieces"] = std::string(ti->num_pieces(), '\x01'); rd["total_uploaded"] = 1337; rd["total_downloaded"] = 1338; rd["active_time"] = 1339; rd["seeding_time"] = 1340; rd["num_seeds"] = 1341; rd["num_downloaders"] = 1342; rd["upload_rate_limit"] = 1343; rd["download_rate_limit"] = 1344; rd["max_connections"] = 1345; rd["max_uploads"] = 1346; rd["seed_mode"] = 0; rd["super_seeding"] = 0; rd["added_time"] = 1347; rd["completed_time"] = 1348; rd["last_scrape"] = 1349; rd["last_download"] = 1350; rd["last_upload"] = 1351; rd["finished_time"] = 1352; if (file_priorities && file_priorities[0]) { entry::list_type& file_prio = rd["file_priority"].list(); for (int i = 0; file_priorities[i]; ++i) file_prio.push_back(entry(file_priorities[i] - '0')); } rd["piece_priority"] = std::string(ti->num_pieces(), '\x01'); rd["auto_managed"] = 0; rd["sequential_download"] = 0; rd["paused"] = 0; entry::list_type& trackers = rd["trackers"].list(); trackers.push_back(entry(entry::list_t)); trackers.back().list().push_back(entry("http://resume_data_tracker.com/announce")); entry::list_type& url_list = rd["url-list"].list(); url_list.push_back(entry("http://resume_data_url_seed.com")); entry::list_type& httpseeds = rd["httpseeds"].list(); httpseeds.push_back(entry("http://resume_data_http_seed.com")); #ifdef TORRENT_WINDOWS rd["save_path"] = "c:\\resume_data save_path"; #else rd["save_path"] = "/resume_data save_path"; #endif std::vector ret; bencode(back_inserter(ret), rd); return ret; } torrent_handle test_resume_flags(lt::session& ses, int flags , char const* file_priorities = "1111", char const* resume_file_prio = "") { boost::shared_ptr ti = generate_torrent(); add_torrent_params p; p.ti = ti; p.flags = flags; #ifdef TORRENT_WINDOWS p.save_path = "c:\\add_torrent_params save_path"; #else p.save_path = "/add_torrent_params save_path"; #endif p.trackers.push_back("http://add_torrent_params_tracker.com/announce"); p.url_seeds.push_back("http://add_torrent_params_url_seed.com"); std::vector rd = generate_resume_data(ti.get(), resume_file_prio); p.resume_data.swap(rd); p.max_uploads = 1; p.max_connections = 2; p.upload_limit = 3; p.download_limit = 4; std::vector priorities_vector; for (int i = 0; file_priorities[i]; ++i) priorities_vector.push_back(file_priorities[i] - '0'); p.file_priorities = priorities_vector; torrent_handle h = ses.add_torrent(p); torrent_status s = h.status(); TEST_EQUAL(s.info_hash, ti->info_hash()); return h; } void default_tests(torrent_status const& s) { // allow some slack in the time stamps since they are reported as // relative times. If the computer is busy while running the unit test // or running under valgrind it may take several seconds TEST_CHECK(s.last_scrape >= 1349); TEST_CHECK(s.time_since_download >= 1350); TEST_CHECK(s.time_since_upload >= 1351); TEST_CHECK(s.active_time >= 1339); TEST_CHECK(s.last_scrape < 1349 + 10); TEST_CHECK(s.time_since_download < 1350 + 10); TEST_CHECK(s.time_since_upload < 1351 + 10); TEST_CHECK(s.active_time < 1339 + 10); TEST_CHECK(s.finished_time >= 1352); TEST_CHECK(s.seeding_time >= 1340); TEST_CHECK(s.added_time >= 1347); TEST_CHECK(s.completed_time >= 1348); TEST_CHECK(s.finished_time < 1352 + 5); TEST_CHECK(s.seeding_time < 1340 + 5); TEST_CHECK(s.added_time < 1347 + 5); TEST_CHECK(s.completed_time < 1348 + 5); } void test_file_sizes(bool allocate) { error_code ec; remove_all("test_resume", ec); lt::settings_pack pack = settings(); // we're not testing the hash check, just accept the data we write pack.set_bool(settings_pack::disable_hash_checks, true); lt::session ses(pack); boost::shared_ptr ti = generate_torrent(); add_torrent_params p; p.ti = ti; p.save_path = "."; if (allocate) p.storage_mode = storage_mode_allocate; torrent_handle h = ses.add_torrent(p); wait_for_downloading(ses, "ses"); std::vector piece(ti->piece_length(), 0); h.add_piece(0, piece.data()); h.save_resume_data(); alert const* a = wait_for_alert(ses, save_resume_data_alert::alert_type); TEST_CHECK(a); save_resume_data_alert const* ra = alert_cast(a); TEST_CHECK(ra); if (ra) { fprintf(stderr, "%s\n", ra->resume_data->to_string().c_str()); bool const has_file_sizes = ra->resume_data->dict().count("file sizes") == 1; TEST_CHECK(has_file_sizes); if (!has_file_sizes) return; // { 'file sizes': [ [ size, timestamp], [...], ... ] } boost::int64_t const file_size = (*ra->resume_data)["file sizes"].list() .front().list().front().integer(); if (allocate) { TEST_EQUAL(file_size, ti->files().file_size(0)); } else { TEST_EQUAL(file_size, ti->piece_length()); } } } TORRENT_TEST(file_sizes_allocate) { test_file_sizes(true); } TORRENT_TEST(file_sizes) { test_file_sizes(false); } TORRENT_TEST(piece_priorities) { lt::session ses(settings()); boost::shared_ptr ti = generate_torrent(); add_torrent_params p; p.ti = ti; p.save_path = "."; torrent_handle h = ses.add_torrent(p); h.piece_priority(0, 0); h.piece_priority(ti->num_pieces()-1, 0); h.save_resume_data(); alert const* a = wait_for_alert(ses, save_resume_data_alert::alert_type); TEST_CHECK(a); save_resume_data_alert const* ra = alert_cast(a); TEST_CHECK(ra); if (ra) { fprintf(stderr, "%s\n", ra->resume_data->to_string().c_str()); entry::string_type prios = (*ra->resume_data)["piece_priority"].string(); TEST_EQUAL(int(prios.size()), ti->num_pieces()); TEST_EQUAL(prios[0], '\0'); TEST_EQUAL(prios[1], '\x04'); TEST_EQUAL(prios[ti->num_pieces()-1], '\0'); bencode(std::back_inserter(p.resume_data), *ra->resume_data); } ses.remove_torrent(h); // now, make sure the piece priorities are loaded correctly h = ses.add_torrent(p); TEST_EQUAL(h.piece_priority(0), 0); TEST_EQUAL(h.piece_priority(1), 4); TEST_EQUAL(h.piece_priority(ti->num_pieces()-1), 0); } // TODO: test what happens when loading a resume file with both piece priorities // and file priorities (file prio should take presedence) // TODO: make sure a resume file only ever contain file priorities OR piece // priorities. Never both. // TODO: generally save TORRENT_TEST(file_priorities_default) { lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses, 0, "", "").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 4); TEST_EQUAL(file_priorities[1], 4); TEST_EQUAL(file_priorities[2], 4); } // As long as the add_torrent_params priorities are empty, the file_priorities // from the resume data should take effect TORRENT_TEST(file_priorities_in_resume) { lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses, 0, "", "123").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 1); TEST_EQUAL(file_priorities[1], 2); TEST_EQUAL(file_priorities[2], 3); } // if both resume data and add_torrent_params has file_priorities, the // add_torrent_params one take precedence TORRENT_TEST(file_priorities_in_resume_and_params) { lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses, 0, "456", "123").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 4); TEST_EQUAL(file_priorities[1], 5); TEST_EQUAL(file_priorities[2], 6); } // if we set flag_override_resume_data, it should no affect file priorities TORRENT_TEST(file_priorities_override_resume) { lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses , add_torrent_params::flag_override_resume_data, "", "123").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 1); TEST_EQUAL(file_priorities[1], 2); TEST_EQUAL(file_priorities[2], 3); } TORRENT_TEST(file_priorities_resume_seed_mode) { // in share mode file priorities should always be 0 lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses, add_torrent_params::flag_share_mode, "", "123").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 0); TEST_EQUAL(file_priorities[1], 0); TEST_EQUAL(file_priorities[2], 0); } TORRENT_TEST(file_priorities_seed_mode) { // in share mode file priorities should always be 0 lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses, add_torrent_params::flag_share_mode, "123", "").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 0); TEST_EQUAL(file_priorities[1], 0); TEST_EQUAL(file_priorities[2], 0); } TORRENT_TEST(zero_file_prio) { fprintf(stderr, "test_file_prio\n"); lt::session ses(settings()); boost::shared_ptr ti = generate_torrent(); add_torrent_params p; p.ti = ti; p.save_path = "."; entry rd; rd["file-format"] = "libtorrent resume file"; rd["file-version"] = 1; rd["info-hash"] = ti->info_hash().to_string(); rd["blocks per piece"] = (std::max)(1, ti->piece_length() / 0x4000); entry::list_type& file_prio = rd["file_priority"].list(); for (int i = 0; i < 100; ++i) { file_prio.push_back(entry(0)); } std::string pieces(ti->num_pieces(), '\x01'); rd["pieces"] = pieces; std::string pieces_prio(ti->num_pieces(), '\x01'); rd["piece_priority"] = pieces_prio; bencode(back_inserter(p.resume_data), rd); torrent_handle h = ses.add_torrent(p); torrent_status s = h.status(); TEST_EQUAL(s.total_wanted, 0); } void test_seed_mode(bool file_prio, bool pieces_have, bool piece_prio , bool all_files_zero = false) { fprintf(stderr, "test_seed_mode file_prio: %d pieces_have: %d piece_prio: %d\n" , file_prio, pieces_have, piece_prio); lt::session ses(settings()); boost::shared_ptr ti = generate_torrent(); add_torrent_params p; p.ti = ti; p.save_path = "."; entry rd; rd["file-format"] = "libtorrent resume file"; rd["file-version"] = 1; rd["info-hash"] = ti->info_hash().to_string(); rd["blocks per piece"] = (std::max)(1, ti->piece_length() / 0x4000); if (file_prio) { // this should take it out of seed_mode entry::list_type& file_prio = rd["file_priority"].list(); file_prio.push_back(entry(0)); if (all_files_zero) { for (int i = 0; i < 100; ++i) { file_prio.push_back(entry(0)); } } } std::string pieces(ti->num_pieces(), '\x01'); if (pieces_have) { pieces[0] = '\0'; } rd["pieces"] = pieces; std::string pieces_prio(ti->num_pieces(), '\x01'); if (piece_prio) { pieces_prio[0] = '\0'; } rd["piece_priority"] = pieces_prio; rd["seed_mode"] = 1; bencode(back_inserter(p.resume_data), rd); torrent_handle h = ses.add_torrent(p); torrent_status s = h.status(); if (file_prio || piece_prio || pieces_have) { TEST_EQUAL(s.seed_mode, false); } else { TEST_EQUAL(s.seed_mode, true); } } TORRENT_TEST(seed_mode_file_prio) { test_seed_mode(true, false, false); } TORRENT_TEST(seed_mode_piece_prio) { test_seed_mode(false, true, false); } TORRENT_TEST(seed_mode_piece_have) { test_seed_mode(false, false, true); } TORRENT_TEST(seed_mode_preserve) { test_seed_mode(false, false, false); } TORRENT_TEST(seed_mode_load_peers) { lt::session ses(settings()); boost::shared_ptr ti = generate_torrent(); add_torrent_params p; p.ti = ti; p.save_path = "."; entry rd; rd["file-format"] = "libtorrent resume file"; rd["file-version"] = 1; rd["info-hash"] = ti->info_hash().to_string(); rd["blocks per piece"] = std::max(1, ti->piece_length() / 0x4000); rd["pieces"] = std::string(ti->num_pieces(), '\x01'); rd["piece_priority"] = std::string(ti->num_pieces(), '\x01'); rd["seed_mode"] = 1; rd["peers"] = "\x01\x02\x03\x04\x30\x39"; bencode(back_inserter(p.resume_data), rd); torrent_handle h = ses.add_torrent(p); wait_for_alert(ses, torrent_checked_alert::alert_type, "seed_mode_load_peers"); std::vector peers; h.get_full_peer_list(peers); TEST_EQUAL(peers.size(), 1); TEST_CHECK(peers[0].ip == tcp::endpoint(address::from_string("1.2.3.4"), 12345)); } TORRENT_TEST(resume_save_load) { lt::session ses(settings()); torrent_handle h = test_resume_flags(ses, 0, "123", ""); h.save_resume_data(); save_resume_data_alert const* a = alert_cast( wait_for_alert(ses, save_resume_data_alert::alert_type , "resume_save_load")); TEST_CHECK(a); if (a == NULL) return; TEST_CHECK(a->resume_data); entry& e = *a->resume_data.get(); entry::list_type& l = e["file_priority"].list(); entry::list_type::iterator i = l.begin(); TEST_EQUAL(l.size(), 3); TEST_EQUAL(*i++, 1); TEST_EQUAL(*i++, 2); TEST_EQUAL(*i++, 3); } TORRENT_TEST(resume_save_load_resume) { lt::session ses(settings()); torrent_handle h = test_resume_flags(ses, 0, "", "123"); h.save_resume_data(); save_resume_data_alert const* a = alert_cast( wait_for_alert(ses, save_resume_data_alert::alert_type , "resume_save_load")); TEST_CHECK(a); if (a == NULL) return; TEST_CHECK(a->resume_data); entry& e = *a->resume_data.get(); entry::list_type& l = e["file_priority"].list(); entry::list_type::iterator i = l.begin(); TEST_EQUAL(l.size(), 3); TEST_EQUAL(*i++, 1); TEST_EQUAL(*i++, 2); TEST_EQUAL(*i++, 3); } TORRENT_TEST(file_priorities_resume_override) { // make sure that an empty file_priorities vector in add_torrent_params won't // override the resume data file priorities, even when override resume data // flag is set. lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses, add_torrent_params::flag_override_resume_data, "", "123").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 1); TEST_EQUAL(file_priorities[1], 2); TEST_EQUAL(file_priorities[2], 3); } TORRENT_TEST(file_priorities_resume) { lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses, 0, "", "123").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 1); TEST_EQUAL(file_priorities[1], 2); TEST_EQUAL(file_priorities[2], 3); } TORRENT_TEST(file_priorities1) { lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses, 0, "010").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 0); TEST_EQUAL(file_priorities[1], 1); TEST_EQUAL(file_priorities[2], 0); //#error save resume data and assert the file priorities are preserved } TORRENT_TEST(file_priorities2) { lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses, 0, "123").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 1); TEST_EQUAL(file_priorities[1], 2); TEST_EQUAL(file_priorities[2], 3); } TORRENT_TEST(file_priorities3) { lt::session ses(settings()); std::vector file_priorities = test_resume_flags(ses, 0, "4321").file_priorities(); TEST_EQUAL(file_priorities.size(), 3); TEST_EQUAL(file_priorities[0], 4); TEST_EQUAL(file_priorities[1], 3); TEST_EQUAL(file_priorities[2], 2); } TORRENT_TEST(plain) { lt::session ses(settings()); torrent_status s = test_resume_flags(ses, 0).status(); default_tests(s); #ifdef TORRENT_WINDOWS TEST_EQUAL(s.save_path, "c:\\add_torrent_params save_path"); #else TEST_EQUAL(s.save_path, "/add_torrent_params save_path"); #endif TEST_EQUAL(s.sequential_download, false); TEST_EQUAL(s.paused, false); TEST_EQUAL(s.auto_managed, false); TEST_EQUAL(s.seed_mode, false); TEST_EQUAL(s.super_seeding, false); TEST_EQUAL(s.share_mode, false); TEST_EQUAL(s.upload_mode, false); TEST_EQUAL(s.ip_filter_applies, false); TEST_EQUAL(s.connections_limit, 1345); TEST_EQUAL(s.uploads_limit, 1346); } TORRENT_TEST(use_resume_save_path) { lt::session ses(settings()); torrent_status s = test_resume_flags(ses, add_torrent_params::flag_use_resume_save_path).status(); default_tests(s); #ifdef TORRENT_WINDOWS TEST_EQUAL(s.save_path, "c:\\resume_data save_path"); #else TEST_EQUAL(s.save_path, "/resume_data save_path"); #endif TEST_EQUAL(s.sequential_download, false); TEST_EQUAL(s.paused, false); TEST_EQUAL(s.auto_managed, false); TEST_EQUAL(s.seed_mode, false); TEST_EQUAL(s.super_seeding, false); TEST_EQUAL(s.share_mode, false); TEST_EQUAL(s.upload_mode, false); TEST_EQUAL(s.ip_filter_applies, false); TEST_EQUAL(s.connections_limit, 1345); TEST_EQUAL(s.uploads_limit, 1346); } TORRENT_TEST(override_resume_data) { lt::session ses(settings()); torrent_status s = test_resume_flags(ses , add_torrent_params::flag_override_resume_data | add_torrent_params::flag_paused).status(); default_tests(s); #ifdef TORRENT_WINDOWS TEST_EQUAL(s.save_path, "c:\\add_torrent_params save_path"); #else TEST_EQUAL(s.save_path, "/add_torrent_params save_path"); #endif TEST_EQUAL(s.sequential_download, false); TEST_EQUAL(s.paused, true); TEST_EQUAL(s.auto_managed, false); TEST_EQUAL(s.seed_mode, false); TEST_EQUAL(s.super_seeding, false); TEST_EQUAL(s.share_mode, false); TEST_EQUAL(s.upload_mode, false); TEST_EQUAL(s.ip_filter_applies, false); TEST_EQUAL(s.connections_limit, 2); TEST_EQUAL(s.uploads_limit, 1); } TORRENT_TEST(seed_mode) { lt::session ses(settings()); torrent_status s = test_resume_flags(ses, add_torrent_params::flag_override_resume_data | add_torrent_params::flag_seed_mode).status(); default_tests(s); #ifdef TORRENT_WINDOWS TEST_EQUAL(s.save_path, "c:\\add_torrent_params save_path"); #else TEST_EQUAL(s.save_path, "/add_torrent_params save_path"); #endif TEST_EQUAL(s.sequential_download, false); TEST_EQUAL(s.paused, false); TEST_EQUAL(s.auto_managed, false); TEST_EQUAL(s.seed_mode, true); TEST_EQUAL(s.super_seeding, false); TEST_EQUAL(s.share_mode, false); TEST_EQUAL(s.upload_mode, false); TEST_EQUAL(s.ip_filter_applies, false); TEST_EQUAL(s.connections_limit, 2); TEST_EQUAL(s.uploads_limit, 1); } TORRENT_TEST(upload_mode) { lt::session ses(settings()); torrent_status s = test_resume_flags(ses, add_torrent_params::flag_upload_mode).status(); default_tests(s); #ifdef TORRENT_WINDOWS TEST_EQUAL(s.save_path, "c:\\add_torrent_params save_path"); #else TEST_EQUAL(s.save_path, "/add_torrent_params save_path"); #endif TEST_EQUAL(s.sequential_download, false); TEST_EQUAL(s.paused, false); TEST_EQUAL(s.auto_managed, false); TEST_EQUAL(s.seed_mode, false); TEST_EQUAL(s.super_seeding, false); TEST_EQUAL(s.share_mode, false); TEST_EQUAL(s.upload_mode, true); TEST_EQUAL(s.ip_filter_applies, false); TEST_EQUAL(s.connections_limit, 1345); TEST_EQUAL(s.uploads_limit, 1346); } TORRENT_TEST(share_mode) { lt::session ses(settings()); torrent_status s = test_resume_flags(ses , add_torrent_params::flag_override_resume_data | add_torrent_params::flag_share_mode).status(); default_tests(s); #ifdef TORRENT_WINDOWS TEST_EQUAL(s.save_path, "c:\\add_torrent_params save_path"); #else TEST_EQUAL(s.save_path, "/add_torrent_params save_path"); #endif TEST_EQUAL(s.sequential_download, false); TEST_EQUAL(s.paused, false); TEST_EQUAL(s.auto_managed, false); TEST_EQUAL(s.seed_mode, false); TEST_EQUAL(s.super_seeding, false); TEST_EQUAL(s.share_mode, true); TEST_EQUAL(s.upload_mode, false); TEST_EQUAL(s.ip_filter_applies, false); TEST_EQUAL(s.connections_limit, 2); TEST_EQUAL(s.uploads_limit, 1); } TORRENT_TEST(auto_managed) { lt::session ses(settings()); // resume data overrides the auto-managed flag torrent_status s = test_resume_flags(ses, add_torrent_params::flag_auto_managed).status(); default_tests(s); #ifdef TORRENT_WINDOWS TEST_EQUAL(s.save_path, "c:\\add_torrent_params save_path"); #else TEST_EQUAL(s.save_path, "/add_torrent_params save_path"); #endif TEST_EQUAL(s.sequential_download, false); TEST_EQUAL(s.paused, false); TEST_EQUAL(s.auto_managed, false); TEST_EQUAL(s.seed_mode, false); TEST_EQUAL(s.super_seeding, false); TEST_EQUAL(s.share_mode, false); TEST_EQUAL(s.upload_mode, false); TEST_EQUAL(s.ip_filter_applies, false); TEST_EQUAL(s.connections_limit, 1345); TEST_EQUAL(s.uploads_limit, 1346); } TORRENT_TEST(paused) { lt::session ses(settings()); // resume data overrides the paused flag torrent_status s = test_resume_flags(ses, add_torrent_params::flag_paused).status(); default_tests(s); #ifdef TORRENT_WINDOWS TEST_EQUAL(s.save_path, "c:\\add_torrent_params save_path"); #else TEST_EQUAL(s.save_path, "/add_torrent_params save_path"); #endif TEST_EQUAL(s.sequential_download, false); TEST_EQUAL(s.paused, false); TEST_EQUAL(s.auto_managed, false); TEST_EQUAL(s.seed_mode, false); TEST_EQUAL(s.super_seeding, false); TEST_EQUAL(s.share_mode, false); TEST_EQUAL(s.upload_mode, false); TEST_EQUAL(s.ip_filter_applies, false); TEST_EQUAL(s.connections_limit, 1345); TEST_EQUAL(s.uploads_limit, 1346); // TODO: test all other resume flags here too. This would require returning // more than just the torrent_status from test_resume_flags. Also http seeds // and trackers for instance } TORRENT_TEST(url_seed_resume_data) { // merge url seeds with resume data fprintf(stderr, "flags: merge_resume_http_seeds\n"); lt::session ses(settings()); torrent_handle h = test_resume_flags(ses, add_torrent_params::flag_merge_resume_http_seeds); std::set us = h.url_seeds(); std::set ws = h.http_seeds(); TEST_EQUAL(us.size(), 3); TEST_EQUAL(std::count(us.begin(), us.end() , "http://add_torrent_params_url_seed.com"), 1); TEST_EQUAL(std::count(us.begin(), us.end() , "http://torrent_file_url_seed.com/"), 1); TEST_EQUAL(std::count(us.begin(), us.end() , "http://resume_data_url_seed.com/"), 1); TEST_EQUAL(ws.size(), 1); TEST_EQUAL(std::count(ws.begin(), ws.end() , "http://resume_data_http_seed.com"), 1); } TORRENT_TEST(resume_override_torrent) { // resume data overrides the .torrent_file fprintf(stderr, "flags: no merge_resume_http_seed\n"); lt::session ses(settings()); torrent_handle h = test_resume_flags(ses, add_torrent_params::flag_merge_resume_trackers); std::set us = h.url_seeds(); std::set ws = h.http_seeds(); TEST_EQUAL(ws.size(), 1); TEST_EQUAL(std::count(ws.begin(), ws.end() , "http://resume_data_http_seed.com"), 1); TEST_EQUAL(us.size(), 1); TEST_EQUAL(std::count(us.begin(), us.end() , "http://resume_data_url_seed.com/"), 1); }