/* * This file Copyright (C) 2013-2014 Mnemosyne LLC * * It may be used under the GNU GPL versions 2 or 3 * or any future license endorsed by Mnemosyne LLC. * */ #include "transmission.h" #include "crypto-utils.h" #include "file.h" #include "makemeta.h" #include "utils.h" // tr_free() #include "test-fixtures.h" #include #include // mktemp() #include // strlen() #include namespace libtransmission { namespace test { class MakemetaTest : public SandboxedTest { protected: void testSingleFileImpl( tr_tracker_info const* trackers, int const trackerCount, void const* payload, size_t const payloadSize, char const* comment, bool isPrivate) { // char* sandbox; tr_info inf; // create a single input file auto input_file = makeString(tr_buildPath(sandboxDir().data(), "test.XXXXXX", nullptr)); createTmpfileWithContents(input_file, payload, payloadSize); tr_sys_path_native_separators(&input_file.front()); auto* builder = tr_metaInfoBuilderCreate(input_file.c_str()); EXPECT_EQ(tr_file_index_t{ 1 }, builder->fileCount); EXPECT_STREQ(input_file.c_str(), builder->top); EXPECT_STREQ(input_file.c_str(), builder->files[0].filename); EXPECT_EQ(payloadSize, builder->files[0].size); EXPECT_EQ(payloadSize, builder->totalSize); EXPECT_FALSE(builder->isFolder); EXPECT_FALSE(builder->abortFlag); // have tr_makeMetaInfo() build the .torrent file auto* torrent_file = tr_strdup_printf("%s.torrent", input_file.data()); tr_makeMetaInfo(builder, torrent_file, trackers, trackerCount, comment, isPrivate); EXPECT_EQ(isPrivate, builder->isPrivate); EXPECT_STREQ(torrent_file, builder->outputFile); EXPECT_STREQ(comment, builder->comment); EXPECT_EQ(trackerCount, builder->trackerCount); while (!builder->isDone) { tr_wait_msec(100); } // now let's check our work: parse the .torrent file auto* ctor = tr_ctorNew(nullptr); sync(); tr_ctorSetMetainfoFromFile(ctor, torrent_file); auto const parse_result = tr_torrentParse(ctor, &inf); EXPECT_EQ(TR_PARSE_OK, parse_result); // quick check of some of the parsed metainfo EXPECT_EQ(payloadSize, inf.totalSize); EXPECT_EQ(makeString(tr_sys_path_basename(input_file.data(), nullptr)), inf.name); EXPECT_STREQ(comment, inf.comment); EXPECT_EQ(tr_file_index_t{ 1 }, inf.fileCount); EXPECT_EQ(isPrivate, inf.isPrivate); EXPECT_FALSE(inf.isFolder); EXPECT_EQ(trackerCount, inf.trackerCount); // cleanup tr_free(torrent_file); tr_ctorFree(ctor); tr_metainfoFree(&inf); tr_metaInfoBuilderFree(builder); } void testSingleDirectoryImpl( tr_tracker_info const* trackers, int const tracker_count, void const** payloads, size_t const* payload_sizes, size_t const payload_count, char const* comment, bool const is_private) { // create the top temp directory auto* top = tr_buildPath(sandboxDir().data(), "folder.XXXXXX", nullptr); tr_sys_path_native_separators(top); tr_sys_dir_create_temp(top, nullptr); // build the payload files that go into the top temp directory auto files = std::vector{}; files.reserve(payload_count); size_t total_size = 0; for (size_t i = 0; i < payload_count; i++) { auto tmpl = std::array{}; tr_snprintf(tmpl.data(), tmpl.size(), "file.%04zu%s", i, "XXXXXX"); auto path = makeString(tr_buildPath(top, tmpl.data(), nullptr)); createTmpfileWithContents(path, payloads[i], payload_sizes[i]); tr_sys_path_native_separators(&path.front()); files.push_back(path); total_size += payload_sizes[i]; } sync(); // init the builder auto* builder = tr_metaInfoBuilderCreate(top); EXPECT_FALSE(builder->abortFlag); EXPECT_STREQ(top, builder->top); EXPECT_EQ(payload_count, builder->fileCount); EXPECT_EQ(total_size, builder->totalSize); EXPECT_TRUE(builder->isFolder); for (size_t i = 0; i < builder->fileCount; ++i) { EXPECT_EQ(files[i], builder->files[i].filename); EXPECT_EQ(payload_sizes[i], builder->files[i].size); } // build the .torrent file auto* torrent_file = tr_strdup_printf("%s.torrent", top); tr_makeMetaInfo(builder, torrent_file, trackers, tracker_count, comment, is_private); EXPECT_EQ(is_private, builder->isPrivate); EXPECT_STREQ(torrent_file, builder->outputFile); EXPECT_STREQ(comment, builder->comment); EXPECT_EQ(tracker_count, builder->trackerCount); auto test = [&builder]() { return builder->isDone; }; EXPECT_TRUE(waitFor(test, 5000)); sync(); // now let's check our work: parse the .torrent file auto* ctor = tr_ctorNew(nullptr); tr_ctorSetMetainfoFromFile(ctor, torrent_file); tr_info inf; auto parse_result = tr_torrentParse(ctor, &inf); EXPECT_EQ(TR_PARSE_OK, parse_result); // quick check of some of the parsed metainfo EXPECT_EQ(total_size, inf.totalSize); auto* tmpstr = tr_sys_path_basename(top, nullptr); EXPECT_STREQ(tmpstr, inf.name); tr_free(tmpstr); EXPECT_STREQ(comment, inf.comment); EXPECT_EQ(payload_count, inf.fileCount); EXPECT_EQ(is_private, inf.isPrivate); EXPECT_EQ(builder->isFolder, inf.isFolder); EXPECT_EQ(tracker_count, inf.trackerCount); // cleanup tr_free(torrent_file); tr_ctorFree(ctor); tr_metainfoFree(&inf); tr_metaInfoBuilderFree(builder); tr_free(top); } void testSingleDirectoryRandomPayloadImpl( tr_tracker_info const* trackers, int const tracker_count, size_t const max_file_count, size_t const max_file_size, char const* comment, bool const is_private) { // build random payloads size_t payload_count = 1 + tr_rand_int_weak(max_file_count); void** payloads = tr_new0(void*, payload_count); size_t* payload_sizes = tr_new0(size_t, payload_count); for (size_t i = 0; i < payload_count; i++) { size_t const n = 1 + tr_rand_int_weak(max_file_size); payloads[i] = tr_new(char, n); tr_rand_buffer(payloads[i], n); payload_sizes[i] = n; } // run the test testSingleDirectoryImpl( trackers, tracker_count, const_cast(payloads), payload_sizes, payload_count, comment, is_private); // cleanup for (size_t i = 0; i < payload_count; i++) { tr_free(payloads[i]); } tr_free(payloads); tr_free(payload_sizes); } }; TEST_F(MakemetaTest, singleFile) { auto trackers = std::array{}; auto tracker_count = int{}; trackers[tracker_count].tier = tracker_count; trackers[tracker_count].announce = const_cast("udp://tracker.openbittorrent.com:80"); ++tracker_count; trackers[tracker_count].tier = tracker_count; trackers[tracker_count].announce = const_cast("udp://tracker.publicbt.com:80"); ++tracker_count; auto const payload = std::string{ "Hello, World!\n" }; char const* const comment = "This is the comment"; bool const is_private = false; testSingleFileImpl(trackers.data(), tracker_count, payload.data(), payload.size(), comment, is_private); } TEST_F(MakemetaTest, singleDirectoryRandomPayload) { auto constexpr DefaultMaxFileCount = size_t{ 16 }; auto constexpr DefaultMaxFileSize = size_t{ 1024 }; auto trackers = std::array{}; auto tracker_count = int{}; trackers[tracker_count].tier = tracker_count; trackers[tracker_count].announce = const_cast("udp://tracker.openbittorrent.com:80"); ++tracker_count; trackers[tracker_count].tier = tracker_count; trackers[tracker_count].announce = const_cast("udp://tracker.publicbt.com:80"); ++tracker_count; char const* const comment = "This is the comment"; bool const is_private = false; for (size_t i = 0; i < 10; ++i) { testSingleDirectoryRandomPayloadImpl( trackers.data(), tracker_count, DefaultMaxFileCount, DefaultMaxFileSize, comment, is_private); } } } // namespace test } // namespace libtransmission