/* Copyright (c) 2012, 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 "test.hpp" #include "libtorrent/file_storage.hpp" #include "libtorrent/aux_/path.hpp" #include "libtorrent/torrent_info.hpp" #include "libtorrent/create_torrent.hpp" #include "libtorrent/announce_entry.hpp" #include "libtorrent/aux_/escape_string.hpp" // for convert_path_to_posix #include "libtorrent/hex.hpp" // to_hex #include using namespace lt; #ifndef TORRENT_DISABLE_MUTABLE_TORRENTS TORRENT_TEST(mutable_torrents) { file_storage fs; fs.add_file("test/temporary.txt", 0x4000); lt::create_torrent t(fs, 0x4000); // calculate the hash for all pieces sha1_hash ph; for (piece_index_t i(0); i < fs.end_piece(); ++i) t.set_hash(i, ph); t.add_collection("collection1"); t.add_collection("collection2"); t.add_similar_torrent(sha1_hash("abababababababababab")); t.add_similar_torrent(sha1_hash("babababababababababa")); std::vector tmp; std::back_insert_iterator> out(tmp); entry tor = t.generate(); bencode(out, tor); torrent_info ti(tmp, from_span); std::vector similar; similar.push_back(sha1_hash("abababababababababab")); similar.push_back(sha1_hash("babababababababababa")); std::vector collections; collections.push_back("collection1"); collections.push_back("collection2"); TEST_CHECK(similar == ti.similar_torrents()); TEST_CHECK(collections == ti.collections()); } #endif struct test_torrent_t { char const* file; }; using namespace lt; static test_torrent_t test_torrents[] = { { "base.torrent" }, { "empty_path.torrent" }, { "parent_path.torrent" }, { "hidden_parent_path.torrent" }, { "single_multi_file.torrent" }, { "slash_path.torrent" }, { "slash_path2.torrent" }, { "slash_path3.torrent" }, { "backslash_path.torrent" }, { "url_list.torrent" }, { "url_list2.torrent" }, { "url_list3.torrent" }, { "httpseed.torrent" }, { "empty_httpseed.torrent" }, { "long_name.torrent" }, { "whitespace_url.torrent" }, { "duplicate_files.torrent" }, { "pad_file.torrent" }, { "creation_date.torrent" }, { "no_creation_date.torrent" }, { "url_seed.torrent" }, { "url_seed_multi.torrent" }, { "url_seed_multi_space.torrent" }, { "url_seed_multi_space_nolist.torrent" }, { "root_hash.torrent" }, { "empty_path_multi.torrent" }, { "duplicate_web_seeds.torrent" }, { "invalid_name2.torrent" }, { "invalid_name3.torrent" }, { "symlink1.torrent" }, { "unordered.torrent" }, { "symlink_zero_size.torrent" }, { "pad_file_no_path.torrent" }, }; struct test_failing_torrent_t { char const* file; error_code error; // the expected error }; test_failing_torrent_t test_error_torrents[] = { { "missing_piece_len.torrent", errors::torrent_missing_piece_length }, { "invalid_piece_len.torrent", errors::torrent_missing_piece_length }, { "negative_piece_len.torrent", errors::torrent_missing_piece_length }, { "no_name.torrent", errors::torrent_missing_name }, { "bad_name.torrent", errors::torrent_missing_name }, { "invalid_name.torrent", errors::torrent_missing_name }, { "invalid_info.torrent", errors::torrent_missing_info }, { "string.torrent", errors::torrent_is_no_dict }, { "negative_size.torrent", errors::torrent_invalid_length }, { "negative_file_size.torrent", errors::torrent_invalid_length }, { "invalid_path_list.torrent", errors::torrent_invalid_name}, { "missing_path_list.torrent", errors::torrent_missing_name }, { "invalid_pieces.torrent", errors::torrent_missing_pieces }, { "unaligned_pieces.torrent", errors::torrent_invalid_hashes }, { "invalid_root_hash.torrent", errors::torrent_invalid_hashes }, { "invalid_root_hash2.torrent", errors::torrent_missing_pieces }, { "invalid_file_size.torrent", errors::torrent_invalid_length }, { "invalid_symlink.torrent", errors::torrent_invalid_name }, { "many_pieces.torrent", errors::too_many_pieces_in_torrent }, }; // TODO: test remap_files // TODO: merkle torrents. specifically torrent_info::add_merkle_nodes and torrent with "root hash" // TODO: torrent with 'p' (padfile) attribute // TODO: torrent with 'h' (hidden) attribute // TODO: torrent with 'x' (executable) attribute // TODO: torrent with 'l' (symlink) attribute // TODO: creating a merkle torrent (torrent_info::build_merkle_list) // TODO: torrent with multiple trackers in multiple tiers, making sure we // shuffle them (how do you test shuffling?, load it multiple times and make // sure it's in different order at least once) // TODO: torrents with a zero-length name // TODO: torrents with a merkle tree and add_merkle_nodes // TODO: torrent with a non-dictionary info-section // TODO: torrents with DHT nodes // TODO: torrent with url-list as a single string // TODO: torrent with http seed as a single string // TODO: torrent with a comment // TODO: torrent with an SSL cert // TODO: torrent with attributes (executable and hidden) // TODO: torrent_info::add_tracker // TODO: torrent_info constructor that takes an invalid bencoded buffer // TODO: verify_encoding with a string that triggers character replacement TORRENT_TEST(url_list_and_httpseeds) { entry info; info["pieces"] = "aaaaaaaaaaaaaaaaaaaa"; info["name.utf-8"] = "test1"; info["name"] = "test__"; info["piece length"] = 16 * 1024; info["length"] = 3245; entry::list_type l; l.push_back(entry("http://foo.com/bar1")); l.push_back(entry("http://foo.com/bar1")); l.push_back(entry("http://foo.com/bar2")); entry const e(l); entry torrent; torrent["url-list"] = e; torrent["httpseeds"] = e; torrent["info"] = info; std::vector buf; bencode(std::back_inserter(buf), torrent); torrent_info ti(buf, from_span); TEST_EQUAL(ti.web_seeds().size(), 4); } TORRENT_TEST(add_url_seed) { torrent_info ti(sha1_hash(" ")); TEST_EQUAL(ti.web_seeds().size(), 0); ti.add_url_seed("http://test.com"); TEST_EQUAL(ti.web_seeds().size(), 1); web_seed_entry we = ti.web_seeds()[0]; TEST_EQUAL(we.type, web_seed_entry::url_seed); TEST_EQUAL(we.url, "http://test.com"); } TORRENT_TEST(add_http_seed) { torrent_info ti(sha1_hash(" ")); TEST_EQUAL(ti.web_seeds().size(), 0); ti.add_http_seed("http://test.com"); TEST_EQUAL(ti.web_seeds().size(), 1); web_seed_entry we = ti.web_seeds()[0]; TEST_EQUAL(we.type, web_seed_entry::http_seed); TEST_EQUAL(we.url, "http://test.com"); } TORRENT_TEST(set_web_seeds) { torrent_info ti(sha1_hash(" ")); TEST_EQUAL(ti.web_seeds().size(), 0); std::vector seeds; web_seed_entry e1("http://test1.com", web_seed_entry::url_seed); seeds.push_back(e1); web_seed_entry e2("http://test2com", web_seed_entry::http_seed); seeds.push_back(e2); ti.set_web_seeds(seeds); TEST_EQUAL(ti.web_seeds().size(), 2); TEST_CHECK(ti.web_seeds() == seeds); } #ifdef TORRENT_WINDOWS #define SEPARATOR "\\" #else #define SEPARATOR "/" #endif TORRENT_TEST(sanitize_long_path) { // test sanitize_append_path_element std::string path; sanitize_append_path_element(path, "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_"); sanitize_append_path_element(path, "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcde.test"); TEST_EQUAL(path, "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_" SEPARATOR "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_abcdefghi_" "abcdefghi_abcdefghi_abcdefghi_abcdefghi_.test"); } TORRENT_TEST(sanitize_path_trailing_dots) { std::string path; sanitize_append_path_element(path, "a"); sanitize_append_path_element(path, "abc..."); sanitize_append_path_element(path, "c"); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "a" SEPARATOR "abc" SEPARATOR "c"); #else TEST_EQUAL(path, "a" SEPARATOR "abc..." SEPARATOR "c"); #endif path.clear(); sanitize_append_path_element(path, "abc..."); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "abc"); #else TEST_EQUAL(path, "abc..."); #endif path.clear(); sanitize_append_path_element(path, "abc."); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "abc"); #else TEST_EQUAL(path, "abc."); #endif path.clear(); sanitize_append_path_element(path, "a. . ."); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "a"); #else TEST_EQUAL(path, "a. . ."); #endif } TORRENT_TEST(sanitize_path_trailing_spaces) { std::string path; sanitize_append_path_element(path, "a"); sanitize_append_path_element(path, "abc "); sanitize_append_path_element(path, "c"); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "a" SEPARATOR "abc" SEPARATOR "c"); #else TEST_EQUAL(path, "a" SEPARATOR "abc " SEPARATOR "c"); #endif path.clear(); sanitize_append_path_element(path, "abc "); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "abc"); #else TEST_EQUAL(path, "abc "); #endif path.clear(); sanitize_append_path_element(path, "abc "); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "abc"); #else TEST_EQUAL(path, "abc "); #endif } TORRENT_TEST(sanitize_path) { std::string path; sanitize_append_path_element(path, "\0\0\xed\0\x80"); TEST_EQUAL(path, "_"); path.clear(); sanitize_append_path_element(path, "/a/"); sanitize_append_path_element(path, "b"); sanitize_append_path_element(path, "c"); TEST_EQUAL(path, "a" SEPARATOR "b" SEPARATOR "c"); path.clear(); sanitize_append_path_element(path, "a...b"); TEST_EQUAL(path, "a...b"); path.clear(); sanitize_append_path_element(path, "a"); sanitize_append_path_element(path, ".."); sanitize_append_path_element(path, "c"); TEST_EQUAL(path, "a" SEPARATOR "c"); path.clear(); sanitize_append_path_element(path, "a"); sanitize_append_path_element(path, ".."); TEST_EQUAL(path, "a"); path.clear(); sanitize_append_path_element(path, "/.."); sanitize_append_path_element(path, "."); sanitize_append_path_element(path, "c"); TEST_EQUAL(path, "c"); path.clear(); sanitize_append_path_element(path, "dev:"); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "dev"); #else TEST_EQUAL(path, "dev:"); #endif path.clear(); sanitize_append_path_element(path, "c:"); sanitize_append_path_element(path, "b"); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "c" SEPARATOR "b"); #else TEST_EQUAL(path, "c:" SEPARATOR "b"); #endif path.clear(); sanitize_append_path_element(path, "c:"); sanitize_append_path_element(path, "."); sanitize_append_path_element(path, "c"); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "c" SEPARATOR "c"); #else TEST_EQUAL(path, "c:" SEPARATOR "c"); #endif path.clear(); sanitize_append_path_element(path, "\\c"); sanitize_append_path_element(path, "."); sanitize_append_path_element(path, "c"); TEST_EQUAL(path, "c" SEPARATOR "c"); path.clear(); sanitize_append_path_element(path, "\b"); TEST_EQUAL(path, "_"); path.clear(); sanitize_append_path_element(path, "\b"); sanitize_append_path_element(path, "filename"); TEST_EQUAL(path, "_" SEPARATOR "filename"); path.clear(); sanitize_append_path_element(path, "filename"); sanitize_append_path_element(path, "\b"); TEST_EQUAL(path, "filename" SEPARATOR "_"); path.clear(); sanitize_append_path_element(path, "abc"); sanitize_append_path_element(path, ""); TEST_EQUAL(path, "abc" SEPARATOR "_"); path.clear(); sanitize_append_path_element(path, "abc"); sanitize_append_path_element(path, " "); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "abc"); #else TEST_EQUAL(path, "abc" SEPARATOR " "); #endif path.clear(); sanitize_append_path_element(path, ""); sanitize_append_path_element(path, "abc"); TEST_EQUAL(path, "_" SEPARATOR "abc"); path.clear(); sanitize_append_path_element(path, "\b?filename=4"); #ifdef TORRENT_WINDOWS TEST_EQUAL(path, "__filename=4"); #else TEST_EQUAL(path, "_?filename=4"); #endif path.clear(); sanitize_append_path_element(path, "filename=4"); TEST_EQUAL(path, "filename=4"); // valid 2-byte sequence path.clear(); sanitize_append_path_element(path, "filename\xc2\xa1"); TEST_EQUAL(path, "filename\xc2\xa1"); // truncated 2-byte sequence path.clear(); sanitize_append_path_element(path, "filename\xc2"); TEST_EQUAL(path, "filename_"); // valid 3-byte sequence path.clear(); sanitize_append_path_element(path, "filename\xe2\x9f\xb9"); TEST_EQUAL(path, "filename\xe2\x9f\xb9"); // truncated 3-byte sequence path.clear(); sanitize_append_path_element(path, "filename\xe2\x9f"); TEST_EQUAL(path, "filename_"); // truncated 3-byte sequence path.clear(); sanitize_append_path_element(path, "filename\xe2"); TEST_EQUAL(path, "filename_"); // valid 4-byte sequence path.clear(); sanitize_append_path_element(path, "filename\xf0\x9f\x92\x88"); TEST_EQUAL(path, "filename\xf0\x9f\x92\x88"); // truncated 4-byte sequence path.clear(); sanitize_append_path_element(path, "filename\xf0\x9f\x92"); TEST_EQUAL(path, "filename_"); // 5-byte utf-8 sequence (not allowed) path.clear(); sanitize_append_path_element(path, "filename\xf8\x9f\x9f\x9f\x9f" "foobar"); TEST_EQUAL(path, "filename_foobar"); // redundant (overlong) 2-byte sequence // ascii code 0x2e encoded with a leading 0 path.clear(); sanitize_append_path_element(path, "filename\xc0\xae"); TEST_EQUAL(path, "filename_"); // redundant (overlong) 3-byte sequence // ascii code 0x2e encoded with two leading 0s path.clear(); sanitize_append_path_element(path, "filename\xe0\x80\xae"); TEST_EQUAL(path, "filename_"); // redundant (overlong) 4-byte sequence // ascii code 0x2e encoded with three leading 0s path.clear(); sanitize_append_path_element(path, "filename\xf0\x80\x80\xae"); TEST_EQUAL(path, "filename_"); // a filename where every character is filtered is not replaced by an understcore path.clear(); sanitize_append_path_element(path, "//\\"); TEST_EQUAL(path, ""); // make sure suspicious unicode characters are filtered out path.clear(); // that's utf-8 for U+200e LEFT-TO-RIGHT MARK sanitize_append_path_element(path, "foo\xe2\x80\x8e" "bar"); TEST_EQUAL(path, "foobar"); // make sure suspicious unicode characters are filtered out path.clear(); // that's utf-8 for U+202b RIGHT-TO-LEFT EMBEDDING sanitize_append_path_element(path, "foo\xe2\x80\xab" "bar"); TEST_EQUAL(path, "foobar"); } TORRENT_TEST(sanitize_path_zeroes) { std::string path; sanitize_append_path_element(path, "\0foo"); TEST_EQUAL(path, "_"); path.clear(); sanitize_append_path_element(path, "\0\0\0\0"); TEST_EQUAL(path, "_"); } TORRENT_TEST(verify_encoding) { // verify_encoding std::string test = "\b?filename=4"; TEST_CHECK(verify_encoding(test)); TEST_CHECK(test == "\b?filename=4"); test = "filename=4"; TEST_CHECK(verify_encoding(test)); TEST_CHECK(test == "filename=4"); // valid 2-byte sequence test = "filename\xc2\xa1"; TEST_CHECK(verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename\xc2\xa1"); // truncated 2-byte sequence test = "filename\xc2"; TEST_CHECK(!verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename_"); // valid 3-byte sequence test = "filename\xe2\x9f\xb9"; TEST_CHECK(verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename\xe2\x9f\xb9"); // truncated 3-byte sequence test = "filename\xe2\x9f"; TEST_CHECK(!verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename_"); // truncated 3-byte sequence test = "filename\xe2"; TEST_CHECK(!verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename_"); // valid 4-byte sequence test = "filename\xf0\x9f\x92\x88"; TEST_CHECK(verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename\xf0\x9f\x92\x88"); // truncated 4-byte sequence test = "filename\xf0\x9f\x92"; TEST_CHECK(!verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename_"); // 5-byte utf-8 sequence (not allowed) test = "filename\xf8\x9f\x9f\x9f\x9f""foobar"; TEST_CHECK(!verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename_____foobar"); // redundant (overlong) 2-byte sequence // ascii code 0x2e encoded with a leading 0 test = "filename\xc0\xae"; TEST_CHECK(!verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename__"); // redundant (overlong) 3-byte sequence // ascii code 0x2e encoded with two leading 0s test = "filename\xe0\x80\xae"; TEST_CHECK(!verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename___"); // redundant (overlong) 4-byte sequence // ascii code 0x2e encoded with three leading 0s test = "filename\xf0\x80\x80\xae"; TEST_CHECK(!verify_encoding(test)); std::printf("%s\n", test.c_str()); TEST_CHECK(test == "filename____"); // missing byte header test = "filename\xed\0\x80"; TEST_CHECK(!verify_encoding(test)); fprintf(stdout, "%s\n", test.c_str()); TEST_CHECK(test == "filename_"); } TORRENT_TEST(parse_torrents) { // test torrent parsing entry info; info["pieces"] = "aaaaaaaaaaaaaaaaaaaa"; info["name.utf-8"] = "test1"; info["name"] = "test__"; info["piece length"] = 16 * 1024; info["length"] = 3245; entry torrent; torrent["info"] = info; std::vector buf; bencode(std::back_inserter(buf), torrent); torrent_info ti(buf, from_span); std::cout << ti.name() << std::endl; TEST_CHECK(ti.name() == "test1"); #ifdef TORRENT_WINDOWS info["name.utf-8"] = "c:/test1/test2/test3"; #else info["name.utf-8"] = "/test1/test2/test3"; #endif torrent["info"] = info; buf.clear(); bencode(std::back_inserter(buf), torrent); torrent_info ti2(buf, from_span); std::cout << ti2.name() << std::endl; #ifdef TORRENT_WINDOWS TEST_EQUAL(ti2.name(), "ctest1test2test3"); #else TEST_EQUAL(ti2.name(), "test1test2test3"); #endif info["name.utf-8"] = "test2/../test3/.././../../test4"; torrent["info"] = info; buf.clear(); bencode(std::back_inserter(buf), torrent); torrent_info ti3(buf, from_span); std::cout << ti3.name() << std::endl; TEST_EQUAL(ti3.name(), "test2..test3.......test4"); std::string root_dir = parent_path(current_working_directory()); for (int i = 0; i < int(sizeof(test_torrents)/sizeof(test_torrents[0])); ++i) { std::printf("loading %s\n", test_torrents[i].file); std::string filename = combine_path(combine_path(root_dir, "test_torrents") , test_torrents[i].file); error_code ec; auto ti = std::make_shared(filename, ec); TEST_CHECK(!ec); if (ec) std::printf(" loading(\"%s\") -> failed %s\n", filename.c_str() , ec.message().c_str()); if (std::string(test_torrents[i].file) == "whitespace_url.torrent") { // make sure we trimmed the url TEST_CHECK(ti->trackers().size() > 0); if (ti->trackers().size() > 0) TEST_CHECK(ti->trackers()[0].url == "udp://test.com/announce"); } else if (std::string(test_torrents[i].file) == "duplicate_files.torrent") { // make sure we disambiguated the files TEST_EQUAL(ti->num_files(), 2); TEST_CHECK(ti->files().file_path(file_index_t{0}) == combine_path(combine_path("temp", "foo"), "bar.txt")); TEST_CHECK(ti->files().file_path(file_index_t{1}) == combine_path(combine_path("temp", "foo"), "bar.1.txt")); } else if (std::string(test_torrents[i].file) == "pad_file.torrent") { TEST_EQUAL(ti->num_files(), 2); TEST_EQUAL(bool(ti->files().file_flags(file_index_t{0}) & file_storage::flag_pad_file), false); TEST_EQUAL(bool(ti->files().file_flags(file_index_t{1}) & file_storage::flag_pad_file), true); } else if (std::string(test_torrents[i].file) == "creation_date.torrent") { TEST_EQUAL(ti->creation_date(), 1234567); } else if (std::string(test_torrents[i].file) == "duplicate_web_seeds.torrent") { TEST_EQUAL(ti->web_seeds().size(), 3); } else if (std::string(test_torrents[i].file) == "no_creation_date.torrent") { TEST_CHECK(!ti->creation_date()); } else if (std::string(test_torrents[i].file) == "url_seed.torrent") { TEST_EQUAL(ti->web_seeds().size(), 1); TEST_EQUAL(ti->web_seeds()[0].url, "http://test.com/file"); #ifndef TORRENT_NO_DEPRECATE TEST_EQUAL(ti->http_seeds().size(), 0); TEST_EQUAL(ti->url_seeds().size(), 1); TEST_EQUAL(ti->url_seeds()[0], "http://test.com/file"); #endif } else if (std::string(test_torrents[i].file) == "url_seed_multi.torrent") { TEST_EQUAL(ti->web_seeds().size(), 1); TEST_EQUAL(ti->web_seeds()[0].url, "http://test.com/file/"); #ifndef TORRENT_NO_DEPRECATE TEST_EQUAL(ti->http_seeds().size(), 0); TEST_EQUAL(ti->url_seeds().size(), 1); TEST_EQUAL(ti->url_seeds()[0], "http://test.com/file/"); #endif } else if (std::string(test_torrents[i].file) == "url_seed_multi_space.torrent" || std::string(test_torrents[i].file) == "url_seed_multi_space_nolist.torrent") { TEST_EQUAL(ti->web_seeds().size(), 1); TEST_EQUAL(ti->web_seeds()[0].url, "http://test.com/test%20file/foo%20bar/"); #ifndef TORRENT_NO_DEPRECATE TEST_EQUAL(ti->http_seeds().size(), 0); TEST_EQUAL(ti->url_seeds().size(), 1); TEST_EQUAL(ti->url_seeds()[0], "http://test.com/test%20file/foo%20bar/"); #endif } else if (std::string(test_torrents[i].file) == "invalid_name2.torrent") { // if, after all invalid characters are removed from the name, it ends up // being empty, it's set to the info-hash. Some torrents also have an empty name // in which case it's also set to the info-hash TEST_EQUAL(ti->name(), "b61560c2918f463768cd122b6d2fdd47b77bdb35"); } else if (std::string(test_torrents[i].file) == "invalid_name3.torrent") { // windows does not allow trailing spaces in filenames #ifdef TORRENT_WINDOWS TEST_EQUAL(ti->name(), "foobar"); #else TEST_EQUAL(ti->name(), "foobar "); #endif } else if (std::string(test_torrents[i].file) == "slash_path.torrent") { TEST_EQUAL(ti->num_files(), 1); TEST_EQUAL(ti->files().file_path(file_index_t{0}), "temp" SEPARATOR "bar"); } else if (std::string(test_torrents[i].file) == "slash_path2.torrent") { TEST_EQUAL(ti->num_files(), 1); TEST_EQUAL(ti->files().file_path(file_index_t{0}), "temp" SEPARATOR "abc....def" SEPARATOR "bar"); } else if (std::string(test_torrents[i].file) == "slash_path3.torrent") { TEST_EQUAL(ti->num_files(), 1); TEST_EQUAL(ti->files().file_path(file_index_t{0}), "temp....abc"); } else if (std::string(test_torrents[i].file) == "symlink_zero_size.torrent") { TEST_EQUAL(ti->num_files(), 2); TEST_EQUAL(ti->files().symlink(file_index_t(1)), combine_path("foo", "bar")); } else if (std::string(test_torrents[i].file) == "pad_file_no_path.torrent") { TEST_EQUAL(ti->num_files(), 2); TEST_EQUAL(ti->files().file_path(file_index_t{1}), combine_path(".pad", "0")); } file_storage const& fs = ti->files(); for (file_index_t i{0}; i != file_index_t(fs.num_files()); ++i) { piece_index_t const first = ti->map_file(i, 0, 0).piece; piece_index_t const last = ti->map_file(i, std::max(fs.file_size(i)-1, std::int64_t(0)), 0).piece; file_flags_t const flags = fs.file_flags(i); sha1_hash const ih = fs.hash(i); std::printf(" %11" PRId64 " %c%c%c%c [ %4d, %4d ] %7u %s %s %s%s\n" , fs.file_size(i) , (flags & file_storage::flag_pad_file)?'p':'-' , (flags & file_storage::flag_executable)?'x':'-' , (flags & file_storage::flag_hidden)?'h':'-' , (flags & file_storage::flag_symlink)?'l':'-' , static_cast(first), static_cast(last) , std::uint32_t(fs.mtime(i)) , ih != sha1_hash(nullptr) ? aux::to_hex(ih).c_str() : "" , fs.file_path(i).c_str() , flags & file_storage::flag_symlink ? "-> ": "" , flags & file_storage::flag_symlink ? fs.symlink(i).c_str() : ""); } } for (int i = 0; i < int(sizeof(test_error_torrents)/sizeof(test_error_torrents[0])); ++i) { error_code ec; std::printf("loading %s\n", test_error_torrents[i].file); auto ti = std::make_shared(combine_path( combine_path(root_dir, "test_torrents"), test_error_torrents[i].file), ec); std::printf("E: \"%s\"\nexpected: \"%s\"\n", ec.message().c_str() , test_error_torrents[i].error.message().c_str()); TEST_CHECK(ec.message() == test_error_torrents[i].error.message()); TEST_EQUAL(ti->is_valid(), false); } } void test_resolve_duplicates(int test_case) { file_storage fs; switch (test_case) { case 0: fs.add_file("test/temporary.txt", 0x4000); fs.add_file("test/Temporary.txt", 0x4000); fs.add_file("test/TeMPorArY.txT", 0x4000); fs.add_file("test/test/TEMPORARY.TXT", 0x4000); break; case 1: fs.add_file("test/b.exe", 0x4000); fs.add_file("test/B.ExE", 0x4000); fs.add_file("test/B.exe", 0x4000); fs.add_file("test/filler", 0x4000); break; case 2: fs.add_file("test/A/tmp", 0x4000); fs.add_file("test/a", 0x4000); fs.add_file("test/A", 0x4000); fs.add_file("test/filler", 0x4000); break; case 3: fs.add_file("test/long/path/name/that/collides", 0x4000); fs.add_file("test/long/path", 0x4000); fs.add_file("test/filler-1", 0x4000); fs.add_file("test/filler-2", 0x4000); break; } lt::create_torrent t(fs, 0x4000); // calculate the hash for all pieces sha1_hash ph; for (piece_index_t i(0); i < fs.end_piece(); ++i) t.set_hash(i, ph); std::vector tmp; std::back_insert_iterator> out(tmp); entry tor = t.generate(); bencode(out, tor); torrent_info ti(tmp, from_span); std::vector> const filenames { { // case 0 "test/temporary.txt", "test/Temporary.1.txt", // duplicate of temporary.txt "test/TeMPorArY.2.txT", // duplicate of temporary.txt // a file with the same name in a seprate directory is fine "test/test/TEMPORARY.TXT", }, { // case 1 "test/b.exe", "test/B.1.ExE", // duplicate of b.exe "test/B.2.exe", // duplicate of b.exe "test/filler", }, { // case 2 "test/A/tmp", "test/a.1", // a file may not have the same name as a directory "test/A.2", // duplicate of directory a "test/filler", }, { // case 3 // a subset of this path collides with the next filename "test/long/path/name/that/collides", // so this file needs to be renamed, to not collide with the path name "test/long/path.1", "test/filler-1", "test/filler-2", } }; for (file_index_t i(0); i < fs.end_file(); ++i) { std::string p = ti.files().file_path(i); convert_path_to_posix(p); std::printf("%s == %s\n", p.c_str(), filenames[test_case][i]); TEST_EQUAL(p, filenames[test_case][i]); } } TORRENT_TEST(resolve_duplicates) { for (int i = 0; i < 4; ++i) test_resolve_duplicates(i); } TORRENT_TEST(empty_file) { error_code ec; auto ti = std::make_shared("", ec, from_span); TEST_CHECK(ec); } TORRENT_TEST(empty_file2) { try { auto ti = std::make_shared("", from_span); TEST_ERROR("expected exception thrown"); } catch (system_error const& e) { std::printf("Expected error: %s\n", e.code().message().c_str()); } } TORRENT_TEST(copy) { using namespace lt; std::shared_ptr a = std::make_shared( combine_path(parent_path(current_working_directory()) , combine_path("test_torrents", "sample.torrent"))); aux::vector expected_files = { "sample/text_file2.txt", "sample/.____padding_file/0", "sample/text_file.txt", }; aux::vector file_hashes = { sha1_hash(nullptr), sha1_hash(nullptr), sha1_hash("abababababababababab") }; file_storage const& fs = a->files(); for (file_index_t i(0); i < fs.end_file(); ++i) { std::string p = fs.file_path(i); convert_path_to_posix(p); TEST_EQUAL(p, expected_files[i]); std::printf("%s\n", p.c_str()); TEST_EQUAL(a->files().hash(i), file_hashes[i]); } // copy the torrent_info object std::shared_ptr b = std::make_shared(*a); // clear out the buffer for a, just to make sure b doesn't have any // references into it by mistake int s = a->metadata_size(); std::memset(a->metadata().get(), 0, s); a.reset(); TEST_EQUAL(b->num_files(), 3); file_storage const& fs2 = b->files(); for (file_index_t i(0); i < fs2.end_file(); ++i) { std::string p = fs2.file_path(i); convert_path_to_posix(p); TEST_EQUAL(p, expected_files[i]); std::printf("%s\n", p.c_str()); TEST_EQUAL(fs2.hash(i), file_hashes[i]); } }