/* vim:set ts=2 sw=2 sts=2 et: */ /** * \author Marcus Holland-Moritz (github@mhxnet.de) * \copyright Copyright (c) Marcus Holland-Moritz * * This file is part of dwarfs. * * dwarfs is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * dwarfs is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with dwarfs. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #if FMT_VERSION >= 110000 #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "filter_test_data.h" #include "loremipsum.h" #include "mmap_mock.h" #include "test_helpers.h" #include "test_logger.h" using namespace dwarfs; namespace fs = std::filesystem; using tool::iolayer; namespace { // TODO: this is a workaround for older Clang versions struct fs_path_hash { auto operator()(const std::filesystem::path& p) const noexcept { return std::filesystem::hash_value(p); } }; auto test_dir = fs::path(TEST_DATA_DIR).make_preferred(); auto audio_data_dir = test_dir / "pcmaudio"; auto fits_data_dir = test_dir / "fits"; constexpr std::array const log_level_strings{ "error", "warn", "info", "verbose", "debug", "trace"}; enum class input_mode { from_file, from_stdin, }; constexpr std::array const input_modes = { input_mode::from_file, input_mode::from_stdin}; std::ostream& operator<<(std::ostream& os, input_mode m) { switch (m) { case input_mode::from_file: os << "from_file"; break; case input_mode::from_stdin: os << "from_stdin"; break; } return os; } struct locale_setup_helper { locale_setup_helper() { setup_default_locale(); } }; void setup_locale() { static locale_setup_helper helper; } class tool_main_test : public testing::Test { public: void SetUp() override { setup_locale(); iol = std::make_unique(); } void TearDown() override { iol.reset(); } std::string out() const { return iol->out(); } std::string err() const { return iol->err(); } std::unique_ptr iol; }; class tester_common { public: using main_ptr_t = tool::main_adapter::main_fn_type; tester_common(main_ptr_t mp, std::string toolname, std::shared_ptr pos) : fa{std::make_shared()} , os{std::move(pos)} , iol{std::make_unique(os, fa)} , main_{mp} , toolname_{std::move(toolname)} { setup_locale(); } int run(std::vector args) { args.insert(args.begin(), toolname_); return tool::main_adapter(main_)(args, iol->get()); } int run(std::initializer_list args) { return run(std::vector(args)); } int run(std::string args) { return run(test::parse_args(args)); } std::string out() const { return iol->out(); } std::string err() const { return iol->err(); } std::shared_ptr fa; std::shared_ptr os; std::unique_ptr iol; private: main_ptr_t main_; std::string toolname_; }; struct random_file_tree_options { double avg_size{4096.0}; int dimension{20}; int max_name_len{50}; bool with_errors{false}; bool with_invalid_utf8{false}; }; auto constexpr default_fs_opts = reader::filesystem_options{ .block_cache = {.max_bytes = 256 * 1024, .sequential_access_detector_threshold = 4}}; class mkdwarfs_tester : public tester_common { public: mkdwarfs_tester(std::shared_ptr pos) : tester_common(tool::mkdwarfs_main, "mkdwarfs", std::move(pos)) {} mkdwarfs_tester() : mkdwarfs_tester(test::os_access_mock::create_test_instance()) {} static mkdwarfs_tester create_empty() { return mkdwarfs_tester(std::make_shared()); } void add_stream_logger(std::ostream& os, logger::level_type level = logger::VERBOSE) { lgr = std::make_unique( std::make_shared(os, os), os, logger_options{.threshold = level}); } void add_root_dir() { os->add("", {1, 040755, 1, 0, 0, 10, 42, 0, 0, 0}); } void add_special_files() { static constexpr file_stat::off_type const size = 10; std::string data(size, 'x'); os->add("suid", {1001, 0104755, 1, 0, 0, size, 0, 3333, 2222, 1111}, data); os->add("sgid", {1002, 0102755, 1, 0, 0, size, 0, 0, 0, 0}, data); os->add("sticky", {1003, 0101755, 1, 0, 0, size, 0, 0, 0, 0}, data); os->add("block", {1004, 060666, 1, 0, 0, 0, 77, 0, 0, 0}, std::string{}); os->add("sock", {1005, 0140666, 1, 0, 0, 0, 0, 0, 0, 0}, std::string{}); } std::vector> add_random_file_tree( random_file_tree_options const& opt = random_file_tree_options{}) { size_t max_size{128 * static_cast(opt.avg_size)}; std::mt19937_64 rng{42}; std::exponential_distribution<> size_dist{1 / opt.avg_size}; std::uniform_int_distribution<> path_comp_size_dist{0, opt.max_name_len}; std::uniform_int_distribution<> invalid_dist{0, 1}; std::vector> paths; auto random_path_component = [&] { auto size = path_comp_size_dist(rng); if (opt.with_invalid_utf8 && invalid_dist(rng) == 0) { return test::create_random_string(size, 96, 255, rng); } return test::create_random_string(size, 'A', 'Z', rng); }; for (int x = 0; x < opt.dimension; ++x) { fs::path d1{random_path_component() + std::to_string(x)}; os->add_dir(d1); for (int y = 0; y < opt.dimension; ++y) { fs::path d2{d1 / (random_path_component() + std::to_string(y))}; os->add_dir(d2); for (int z = 0; z < opt.dimension; ++z) { fs::path f{d2 / (random_path_component() + std::to_string(z))}; auto size = std::min(max_size, static_cast(size_dist(rng))); std::string data; if (size < 1024 * 1024 && rng() % 2 == 0) { data = test::create_random_string(size, rng); } else { data = test::loremipsum(size); } os->add_file(f, data); paths.emplace_back(f, data); if (opt.with_errors) { auto failpath = fs::path{"/"} / f; switch (rng() % 8) { case 0: os->set_access_fail(failpath); [[fallthrough]]; case 1: case 2: os->set_map_file_error( failpath, std::make_exception_ptr(std::runtime_error("map_file_error")), rng() % 4); break; default: break; } } } } } return paths; } void add_test_file_tree() { for (auto const& [stat, name] : test::test_dirtree()) { auto path = name.substr(name.size() == 5 ? 5 : 6); switch (stat.type()) { case posix_file_type::regular: os->add(path, stat, [size = stat.size] { return test::loremipsum(size); }); break; case posix_file_type::symlink: os->add(path, stat, test::loremipsum(stat.size)); break; default: os->add(path, stat); break; } } } reader::filesystem_v2 fs_from_data(std::string data, reader::filesystem_options const& opt = default_fs_opts) { if (!lgr) { lgr = std::make_unique(); } auto mm = std::make_shared(std::move(data)); return reader::filesystem_v2(*lgr, *os, mm, opt); } reader::filesystem_v2 fs_from_file(std::string path, reader::filesystem_options const& opt = default_fs_opts) { auto fsimage = fa->get_file(path); if (!fsimage) { throw std::runtime_error("file not found: " + path); } return fs_from_data(std::move(fsimage.value()), opt); } reader::filesystem_v2 fs_from_stdout(reader::filesystem_options const& opt = default_fs_opts) { return fs_from_data(out(), opt); } std::unique_ptr lgr; }; std::string build_test_image(std::vector extra_args = {}, std::map extra_files = {}) { mkdwarfs_tester t; for (auto const& [name, contents] : extra_files) { t.fa->set_file(name, contents); } std::vector args = {"-i", "/", "-o", "-"}; args.insert(args.end(), extra_args.begin(), extra_args.end()); if (t.run(args) != 0) { throw std::runtime_error("failed to build test image:\n" + t.err()); } return t.out(); } class dwarfsck_tester : public tester_common { public: dwarfsck_tester(std::shared_ptr pos) : tester_common(tool::dwarfsck_main, "dwarfsck", std::move(pos)) {} dwarfsck_tester() : dwarfsck_tester(std::make_shared()) {} static dwarfsck_tester create_with_image(std::string image) { auto os = std::make_shared(); os->add("", {1, 040755, 1, 0, 0, 10, 42, 0, 0, 0}); os->add_file("image.dwarfs", std::move(image)); return dwarfsck_tester(std::move(os)); } static dwarfsck_tester create_with_image() { return create_with_image(build_test_image()); } }; class dwarfsextract_tester : public tester_common { public: dwarfsextract_tester(std::shared_ptr pos) : tester_common(tool::dwarfsextract_main, "dwarfsextract", std::move(pos)) {} dwarfsextract_tester() : dwarfsextract_tester(std::make_shared()) {} static dwarfsextract_tester create_with_image(std::string image) { auto os = std::make_shared(); os->add("", {1, 040755, 1, 0, 0, 10, 42, 0, 0, 0}); os->add_file("image.dwarfs", std::move(image)); return dwarfsextract_tester(std::move(os)); } static dwarfsextract_tester create_with_image() { return create_with_image(build_test_image()); } }; std::tuple, mkdwarfs_tester> build_with_args(std::vector opt_args = {}) { std::string const image_file = "test.dwarfs"; mkdwarfs_tester t; std::vector args = {"-i", "/", "-o", image_file}; args.insert(args.end(), opt_args.begin(), opt_args.end()); if (t.run(args) != 0) { return {std::nullopt, std::move(t)}; } return {t.fs_from_file(image_file), std::move(t)}; } std::set get_all_fs_times(reader::filesystem_v2 const& fs) { std::set times; fs.walk([&](auto const& e) { auto st = fs.getattr(e.inode()); times.insert(st.atime()); times.insert(st.ctime()); times.insert(st.mtime()); }); return times; } std::set get_all_fs_uids(reader::filesystem_v2 const& fs) { std::set uids; fs.walk([&](auto const& e) { auto st = fs.getattr(e.inode()); uids.insert(st.uid()); }); return uids; } std::set get_all_fs_gids(reader::filesystem_v2 const& fs) { std::set gids; fs.walk([&](auto const& e) { auto st = fs.getattr(e.inode()); gids.insert(st.gid()); }); return gids; } } // namespace class mkdwarfs_main_test : public tool_main_test { public: int run(std::vector args) { args.insert(args.begin(), "mkdwarfs"); return tool::main_adapter(tool::mkdwarfs_main)(args, iol->get()); } }; class dwarfsck_main_test : public tool_main_test { public: int run(std::vector args) { args.insert(args.begin(), "dwarfsck"); return tool::main_adapter(tool::dwarfsck_main)(args, iol->get()); } }; class dwarfsextract_main_test : public tool_main_test { public: int run(std::vector args) { args.insert(args.begin(), "dwarfsextract"); return tool::main_adapter(tool::dwarfsextract_main)(args, iol->get()); } }; TEST_F(mkdwarfs_main_test, no_cmdline_args) { auto exit_code = run({}); EXPECT_EQ(exit_code, 0); EXPECT_TRUE(err().empty()); EXPECT_FALSE(out().empty()); EXPECT_THAT(out(), ::testing::HasSubstr("Usage: mkdwarfs")); EXPECT_THAT(out(), ::testing::HasSubstr("--help")); } TEST_F(dwarfsck_main_test, no_cmdline_args) { auto exit_code = run({}); EXPECT_EQ(exit_code, 0); EXPECT_TRUE(err().empty()); EXPECT_FALSE(out().empty()); EXPECT_THAT(out(), ::testing::HasSubstr("Usage: dwarfsck")); EXPECT_THAT(out(), ::testing::HasSubstr("--help")); } TEST_F(dwarfsextract_main_test, no_cmdline_args) { auto exit_code = run({}); EXPECT_EQ(exit_code, 0); EXPECT_TRUE(err().empty()); EXPECT_FALSE(out().empty()); EXPECT_THAT(out(), ::testing::HasSubstr("Usage: dwarfsextract")); EXPECT_THAT(out(), ::testing::HasSubstr("--help")); } TEST_F(mkdwarfs_main_test, invalid_cmdline_args) { auto exit_code = run({"--some-invalid-option"}); EXPECT_EQ(exit_code, 1); EXPECT_FALSE(err().empty()); EXPECT_TRUE(out().empty()); EXPECT_THAT(err(), ::testing::HasSubstr( "unrecognised option '--some-invalid-option'")); } TEST_F(dwarfsck_main_test, invalid_cmdline_args) { auto exit_code = run({"--some-invalid-option"}); EXPECT_EQ(exit_code, 1); EXPECT_FALSE(err().empty()); EXPECT_TRUE(out().empty()); EXPECT_THAT(err(), ::testing::HasSubstr( "unrecognised option '--some-invalid-option'")); } TEST_F(dwarfsextract_main_test, invalid_cmdline_args) { auto exit_code = run({"--some-invalid-option"}); EXPECT_EQ(exit_code, 1); EXPECT_FALSE(err().empty()); EXPECT_TRUE(out().empty()); EXPECT_THAT(err(), ::testing::HasSubstr( "unrecognised option '--some-invalid-option'")); } TEST_F(mkdwarfs_main_test, cmdline_help_arg) { auto exit_code = run({"--help"}); EXPECT_EQ(exit_code, 0); EXPECT_TRUE(err().empty()); EXPECT_FALSE(out().empty()); EXPECT_THAT(out(), ::testing::HasSubstr("Usage: mkdwarfs")); EXPECT_THAT(out(), ::testing::HasSubstr("--help")); EXPECT_THAT(out(), ::testing::HasSubstr("--long-help")); // check that the detailed help is not shown EXPECT_THAT(out(), ::testing::Not(::testing::HasSubstr("Advanced options:"))); EXPECT_THAT(out(), ::testing::Not(::testing::HasSubstr("Compression algorithms:"))); } TEST_F(mkdwarfs_main_test, cmdline_long_help_arg) { auto exit_code = run({"--long-help"}); EXPECT_EQ(exit_code, 0); EXPECT_TRUE(err().empty()); EXPECT_FALSE(out().empty()); EXPECT_THAT(out(), ::testing::HasSubstr("Usage: mkdwarfs")); EXPECT_THAT(out(), ::testing::HasSubstr("Advanced options:")); EXPECT_THAT(out(), ::testing::HasSubstr("Compression level defaults:")); EXPECT_THAT(out(), ::testing::HasSubstr("Compression algorithms:")); EXPECT_THAT(out(), ::testing::HasSubstr("Categories:")); } TEST_F(dwarfsck_main_test, cmdline_help_arg) { auto exit_code = run({"--help"}); EXPECT_EQ(exit_code, 0); EXPECT_TRUE(err().empty()); EXPECT_FALSE(out().empty()); EXPECT_THAT(out(), ::testing::HasSubstr("Usage: dwarfsck")); } TEST_F(dwarfsextract_main_test, cmdline_help_arg) { auto exit_code = run({"--help"}); EXPECT_EQ(exit_code, 0); EXPECT_TRUE(err().empty()); EXPECT_FALSE(out().empty()); EXPECT_THAT(out(), ::testing::HasSubstr("Usage: dwarfsextract")); } #if DWARFS_PERFMON_ENABLED TEST(dwarfsextract_test, perfmon) { auto t = dwarfsextract_tester::create_with_image(); ASSERT_EQ(0, t.run({"-i", "image.dwarfs", "-f", "mtree", "--perfmon", "filesystem_v2,inode_reader_v2"})) << t.err(); auto outs = t.out(); auto errs = t.err(); EXPECT_GT(outs.size(), 100); EXPECT_FALSE(errs.empty()); EXPECT_THAT(errs, ::testing::HasSubstr("[filesystem_v2.readv_future_ec]")); EXPECT_THAT(errs, ::testing::HasSubstr("[filesystem_v2.getattr]")); EXPECT_THAT(errs, ::testing::HasSubstr("[filesystem_v2.open]")); EXPECT_THAT(errs, ::testing::HasSubstr("[filesystem_v2.readlink_ec]")); EXPECT_THAT(errs, ::testing::HasSubstr("[filesystem_v2.statvfs]")); EXPECT_THAT(errs, ::testing::HasSubstr("[inode_reader_v2.readv_future]")); static std::regex const perfmon_re{R"(\[filesystem_v2\.getattr\])" R"(\s+samples:\s+\d+)" R"(\s+overall:\s+\d+(\.\d+)?[num]?s)" R"(\s+avg latency:\s+\d+(\.\d+)?[num]?s)" R"(\s+p50 latency:\s+\d+(\.\d+)?[num]?s)" R"(\s+p90 latency:\s+\d+(\.\d+)?[num]?s)" R"(\s+p99 latency:\s+\d+(\.\d+)?[num]?s)"}; EXPECT_TRUE(std::regex_search(errs, perfmon_re)) << errs; } TEST(dwarfsextract_test, perfmon_trace) { auto t = dwarfsextract_tester::create_with_image(); ASSERT_EQ(0, t.run({"-i", "image.dwarfs", "-f", "gnutar", "--perfmon", "filesystem_v2,inode_reader_v2,block_cache", "--perfmon-trace", "trace.json"})) << t.err(); EXPECT_GT(t.out().size(), 1'000'000); auto trace_file = t.fa->get_file("trace.json"); ASSERT_TRUE(trace_file); EXPECT_GT(trace_file->size(), 10'000); auto trace = nlohmann::json::parse(*trace_file); EXPECT_TRUE(trace.is_array()); std::set const expected = {"filesystem_v2", "inode_reader_v2", "block_cache"}; std::set actual; for (auto const& obj : trace) { EXPECT_TRUE(obj.is_object()); EXPECT_TRUE(obj["cat"].is_string()); actual.insert(obj["cat"].get()); } EXPECT_EQ(expected, actual); } #endif class mkdwarfs_input_list_test : public testing::TestWithParam {}; TEST_P(mkdwarfs_input_list_test, basic) { auto mode = GetParam(); std::string const image_file = "test.dwarfs"; std::string const input_list = "somelink\nfoo.pl\nsomedir/ipsum.py\n"; mkdwarfs_tester t; std::string input_file; if (mode == input_mode::from_file) { input_file = "input_list.txt"; t.fa->set_file(input_file, input_list); } else { input_file = "-"; t.iol->set_in(input_list); } ASSERT_EQ(0, t.run({"--input-list", input_file, "-o", image_file})); std::ostringstream oss; t.add_stream_logger(oss, logger::DEBUG); auto fs = t.fs_from_file(image_file); auto link = fs.find("/somelink"); auto foo = fs.find("/foo.pl"); auto ipsum = fs.find("/somedir/ipsum.py"); EXPECT_TRUE(link); EXPECT_TRUE(foo); EXPECT_TRUE(ipsum); EXPECT_FALSE(fs.find("/test.pl")); EXPECT_TRUE(link->is_symlink()); EXPECT_TRUE(foo->is_regular_file()); EXPECT_TRUE(ipsum->is_regular_file()); std::set const expected = {"", "somelink", "foo.pl", "somedir", fs::path("somedir") / "ipsum.py"}; std::set actual; fs.walk([&](auto const& e) { actual.insert(e.fs_path()); }); EXPECT_EQ(expected, actual); } INSTANTIATE_TEST_SUITE_P(dwarfs, mkdwarfs_input_list_test, ::testing::ValuesIn(input_modes)); TEST(mkdwarfs_test, input_list_large) { auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); auto paths = t.add_random_file_tree({.avg_size = 32.0, .dimension = 32}); { std::ostringstream os; for (auto const& p : paths) { os << p.first.string() << '\n'; } t.iol->set_in(os.str()); } ASSERT_EQ(0, t.run({"-l3", "--input-list", "-", "-o", "-"})) << t.err(); auto fs = t.fs_from_stdout(); std::set expected; std::transform(paths.begin(), paths.end(), std::inserter(expected, expected.end()), [](auto const& p) { return p.first; }); std::set actual; fs.walk([&](auto const& e) { if (e.inode().is_regular_file()) { actual.insert(e.fs_path()); } }); EXPECT_EQ(expected, actual); } class logging_test : public testing::TestWithParam {}; TEST_P(logging_test, end_to_end) { auto level = GetParam(); std::string const image_file = "test.dwarfs"; auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); t.os->add_local_files(audio_data_dir); t.os->add_local_files(fits_data_dir); t.os->add_file("random", 4096, true); ASSERT_EQ(0, t.run({"-i", "/", "-o", image_file, "--categorize", fmt::format("--log-level={}", level)})); auto fs = t.fs_from_file(image_file); auto iv16 = fs.find("/test8.aiff"); auto iv32 = fs.find("/test8.caf"); EXPECT_TRUE(iv16); EXPECT_TRUE(iv32); { std::vector dumps; for (int detail = 0; detail <= 6; ++detail) { std::ostringstream os; fs.dump(os, {.features = reader::fsinfo_features::for_level(detail)}); auto d = os.str(); if (!dumps.empty()) { EXPECT_GT(d.size(), dumps.back().size()) << detail; } dumps.emplace_back(std::move(d)); } EXPECT_GT(dumps.back().size(), 10'000); } { std::vector infos; for (int detail = 0; detail <= 4; ++detail) { auto info = fs.info_as_json( {.features = reader::fsinfo_features::for_level(detail)}); auto i = info.dump(); if (!infos.empty()) { EXPECT_GT(i.size(), infos.back().size()) << detail; } infos.emplace_back(std::move(i)); } EXPECT_GT(infos.back().size(), 1'000); } } INSTANTIATE_TEST_SUITE_P(mkdwarfs, logging_test, ::testing::ValuesIn(log_level_strings)); class term_logging_test : public testing::TestWithParam> {}; TEST_P(term_logging_test, end_to_end) { auto const [level, fancy] = GetParam(); std::map> const match{ {"error", {"", 'E'}}, {"warn", {"", 'W'}}, {"info", {"", 'I'}}, {"verbose", {"", 'V'}}, {"debug", {"", 'D'}}, {"trace", {"", 'T'}}, }; auto const cutoff = std::find(log_level_strings.begin(), log_level_strings.end(), level); ASSERT_FALSE(cutoff == log_level_strings.end()); { mkdwarfs_tester t; t.iol->set_terminal_is_tty(fancy); t.iol->set_terminal_fancy(fancy); t.os->set_access_fail("/somedir/ipsum.py"); // trigger an error EXPECT_EQ(2, t.run("-l1 -i / -o - --categorize --num-workers=8 -S 22 " "-L 16M --progress=none --log-level=" + std::string(level))) << t.err(); auto err = t.err(); auto it = log_level_strings.begin(); auto make_contains_regex = [fancy = fancy](auto m) { auto const& [color, prefix] = m->second; auto beg = fancy ? color : std::string_view{}; auto end = fancy && !color.empty() ? "" : ""; return fmt::format("{}{}\\s\\d\\d:\\d\\d:\\d\\d.*{}\\r?\\n", beg, prefix, end); }; while (it != cutoff + 1) { auto m = match.find(*it); EXPECT_FALSE(m == match.end()); auto re = make_contains_regex(m); EXPECT_TRUE(std::regex_search(err, std::regex(re))) << re << ", " << err; ++it; } while (it != log_level_strings.end()) { auto m = match.find(*it); EXPECT_FALSE(m == match.end()); auto re = make_contains_regex(m); EXPECT_FALSE(std::regex_search(err, std::regex(re))) << re << ", " << err; ++it; } } } INSTANTIATE_TEST_SUITE_P( mkdwarfs, term_logging_test, ::testing::Combine(::testing::ValuesIn(log_level_strings), ::testing::Bool())); TEST(mkdwarfs_test, no_log_context) { mkdwarfs_tester t; EXPECT_EQ(0, t.run("-l3 -i / -o -")) << t.err(); EXPECT_THAT(t.err(), ::testing::Not(::testing::HasSubstr("[scanner.cpp:"))); } TEST(mkdwarfs_test, default_log_context) { mkdwarfs_tester t; EXPECT_EQ(0, t.run("-l3 -i / -o - --log-level=verbose")) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("[scanner.cpp:")); } TEST(mkdwarfs_test, explicit_log_context) { mkdwarfs_tester t; EXPECT_EQ(0, t.run("-l3 -i / -o - --log-with-context")) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("[scanner.cpp:")); } TEST(mkdwarfs_test, metadata_inode_info) { auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); t.os->add_local_files(audio_data_dir); t.os->add_local_files(fits_data_dir); t.os->add_file("random", 4096, true); ASSERT_EQ(0, t.run("-l3 -i / -o - --categorize")); auto fs = t.fs_from_stdout(); { auto iv = fs.find("/test8.aiff"); ASSERT_TRUE(iv); auto info = fs.get_inode_info(*iv); ASSERT_TRUE(info.count("chunks") > 0); std::set categories; for (auto chunk : info["chunks"]) { ASSERT_TRUE(chunk.count("category") > 0); categories.insert(chunk["category"].get()); } std::set expected{ "pcmaudio/metadata", "pcmaudio/waveform", }; EXPECT_EQ(expected, categories); } { auto iv = fs.find("/test.fits"); ASSERT_TRUE(iv); auto info = fs.get_inode_info(*iv); ASSERT_TRUE(info.count("chunks") > 0); std::set categories; for (auto chunk : info["chunks"]) { ASSERT_TRUE(chunk.count("category") > 0); categories.insert(chunk["category"].get()); } std::set expected{ "fits/image", "fits/metadata", }; EXPECT_EQ(expected, categories); } } TEST(mkdwarfs_test, metadata_path) { fs::path const f1{"test.txt"}; fs::path const f2{U"猫.txt"}; fs::path const f3{u8"⚽️.bin"}; fs::path const f4{L"Карибського"}; fs::path const d1{u8"我爱你"}; fs::path const f5{d1 / u8"☀️ Sun"}; auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); t.os->add_file(f1, 2, true); t.os->add_file(f2, 4, true); t.os->add_file(f3, 8, true); t.os->add_file(f4, 16, true); t.os->add_dir(d1); t.os->add_file(f5, 32, true); ASSERT_EQ(0, t.run("-l3 -i / -o -")); auto fs = t.fs_from_stdout(); std::map entries; fs.walk([&](auto e) { auto stat = fs.getattr(e.inode()); if (stat.is_regular_file()) { entries.emplace(stat.size(), e); } }); ASSERT_EQ(entries.size(), 5); auto e1 = entries.at(2); auto e2 = entries.at(4); auto e3 = entries.at(8); auto e4 = entries.at(16); auto e5 = entries.at(32); auto de = fs.find(d1.string().c_str()); ASSERT_TRUE(de); EXPECT_EQ(de->mode_string(), "---drwxr-xr-x"); EXPECT_EQ(e1.inode().mode_string(), "----rw-r--r--"); EXPECT_EQ(e1.fs_path(), f1); EXPECT_EQ(e2.fs_path(), f2); EXPECT_EQ(e3.fs_path(), f3); EXPECT_EQ(e4.fs_path(), f4); EXPECT_EQ(e5.fs_path(), f5); EXPECT_EQ(e1.wpath(), L"test.txt"); EXPECT_EQ(e2.wpath(), L"猫.txt"); EXPECT_EQ(e3.wpath(), L"⚽️.bin"); EXPECT_EQ(e4.wpath(), L"Карибського"); #ifdef _WIN32 EXPECT_EQ(e5.wpath(), L"我爱你\\☀️ Sun"); #else EXPECT_EQ(e5.wpath(), L"我爱你/☀️ Sun"); #endif EXPECT_EQ(e1.path(), "test.txt"); EXPECT_EQ(e2.path(), "猫.txt"); EXPECT_EQ(e3.path(), "⚽️.bin"); EXPECT_EQ(e4.path(), "Карибського"); #ifdef _WIN32 EXPECT_EQ(e5.path(), "我爱你\\☀️ Sun"); #else EXPECT_EQ(e5.path(), "我爱你/☀️ Sun"); #endif EXPECT_EQ(e1.unix_path(), "test.txt"); EXPECT_EQ(e2.unix_path(), "猫.txt"); EXPECT_EQ(e3.unix_path(), "⚽️.bin"); EXPECT_EQ(e4.unix_path(), "Карибського"); EXPECT_EQ(e5.unix_path(), "我爱你/☀️ Sun"); } TEST(mkdwarfs_test, metadata_modes) { mkdwarfs_tester t; t.add_special_files(); ASSERT_EQ(0, t.run("-l3 -i / -o - --with-specials --with-devices")); auto fs = t.fs_from_stdout(); auto d1 = fs.find("/"); auto d2 = fs.find("/foo.pl"); auto d3 = fs.find("/somelink"); auto d4 = fs.find("/somedir"); auto d5 = fs.find("/somedir/pipe"); auto d6 = fs.find("/somedir/null"); auto d7 = fs.find("/suid"); auto d8 = fs.find("/sgid"); auto d9 = fs.find("/sticky"); auto d10 = fs.find("/block"); auto d11 = fs.find("/sock"); ASSERT_TRUE(d1); ASSERT_TRUE(d2); ASSERT_TRUE(d3); ASSERT_TRUE(d4); ASSERT_TRUE(d5); ASSERT_TRUE(d6); ASSERT_TRUE(d7); ASSERT_TRUE(d8); ASSERT_TRUE(d9); ASSERT_TRUE(d10); ASSERT_TRUE(d11); EXPECT_EQ(d1->mode_string(), "---drwxrwxrwx"); EXPECT_EQ(d2->mode_string(), "----rw-------"); EXPECT_EQ(d3->mode_string(), "---lrwxrwxrwx"); EXPECT_EQ(d4->mode_string(), "---drwxrwxrwx"); EXPECT_EQ(d5->mode_string(), "---prw-r--r--"); EXPECT_EQ(d6->mode_string(), "---crw-rw-rw-"); EXPECT_EQ(d7->mode_string(), "U---rwxr-xr-x"); EXPECT_EQ(d8->mode_string(), "-G--rwxr-xr-x"); EXPECT_EQ(d9->mode_string(), "--S-rwxr-xr-x"); EXPECT_EQ(d10->mode_string(), "---brw-rw-rw-"); EXPECT_EQ(d11->mode_string(), "---srw-rw-rw-"); } TEST(mkdwarfs_test, metadata_specials) { mkdwarfs_tester t; t.add_special_files(); ASSERT_EQ(0, t.run("-l3 -i / -o - --with-specials --with-devices")); auto fs = t.fs_from_stdout(); std::ostringstream oss; fs.dump(oss, {.features = reader::fsinfo_features::all()}); auto dump = oss.str(); auto meta = fs.metadata_as_json(); std::set types; for (auto const& ino : meta["root"]["inodes"]) { types.insert(ino["type"].get()); if (auto di = ino.find("inodes"); di != ino.end()) { for (auto const& ino2 : *di) { types.insert(ino2["type"].get()); } } } std::set expected_types = { "file", "link", "directory", "chardev", "blockdev", "socket", "fifo"}; EXPECT_EQ(expected_types, types); EXPECT_THAT(dump, ::testing::HasSubstr("char device")); EXPECT_THAT(dump, ::testing::HasSubstr("block device")); EXPECT_THAT(dump, ::testing::HasSubstr("socket")); EXPECT_THAT(dump, ::testing::HasSubstr("named pipe")); auto iv = fs.find("/block"); ASSERT_TRUE(iv); std::error_code ec; auto stat = fs.getattr(*iv, ec); EXPECT_FALSE(ec); EXPECT_TRUE(stat.is_device()); EXPECT_EQ(77, stat.rdev()); } TEST(mkdwarfs_test, metadata_time_resolution) { mkdwarfs_tester t; t.add_special_files(); ASSERT_EQ(0, t.run("-l3 -i / -o - --time-resolution=min --keep-all-times")); auto fs = t.fs_from_stdout(); std::ostringstream oss; fs.dump(oss, {.features = reader::fsinfo_features::all()}); auto dump = oss.str(); EXPECT_THAT(dump, ::testing::HasSubstr("time resolution: 60 seconds")); auto dyn = fs.info_as_json({.features = reader::fsinfo_features::all()}); EXPECT_EQ(60, dyn["time_resolution"].get()); auto iv = fs.find("/suid"); ASSERT_TRUE(iv); std::error_code ec; auto stat = fs.getattr(*iv, ec); EXPECT_FALSE(ec); EXPECT_EQ(3300, stat.atime()); EXPECT_EQ(2220, stat.mtime()); EXPECT_EQ(1080, stat.ctime()); } TEST(mkdwarfs_test, metadata_readdir) { mkdwarfs_tester t; ASSERT_EQ(0, t.run("-l3 -i / -o -")); auto fs = t.fs_from_stdout(); auto iv = fs.find("/somedir"); ASSERT_TRUE(iv); auto dir = fs.opendir(*iv); ASSERT_TRUE(dir); { auto r = fs.readdir(dir.value(), 0); ASSERT_TRUE(r); auto [ino, name] = r.value(); EXPECT_EQ(".", name); EXPECT_EQ(ino.inode_num(), iv->inode_num()); } { auto r = fs.readdir(dir.value(), 1); ASSERT_TRUE(r); auto [ino, name] = r.value(); EXPECT_EQ("..", name); auto parent = fs.find("/"); ASSERT_TRUE(parent); EXPECT_EQ(ino.inode_num(), parent->inode_num()); } { auto r = fs.readdir(dir.value(), 100); EXPECT_FALSE(r); } } TEST(mkdwarfs_test, metadata_access) { #ifdef _WIN32 #define F_OK 0 #define W_OK 2 #define R_OK 4 static constexpr int const x_ok = 1; #else static constexpr int const x_ok = X_OK; #endif auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); t.os->add("access", {1001, 040742, 1, 222, 3333}); ASSERT_EQ(0, t.run("-l3 -i / -o -")); { auto fs = t.fs_from_stdout(); auto iv = fs.find("/access"); ASSERT_TRUE(iv); EXPECT_TRUE(fs.access(*iv, F_OK, 1, 1)); EXPECT_FALSE(fs.access(*iv, R_OK, 1, 1)); EXPECT_TRUE(fs.access(*iv, W_OK, 1, 1)); EXPECT_FALSE(fs.access(*iv, x_ok, 1, 1)); EXPECT_TRUE(fs.access(*iv, R_OK, 1, 3333)); EXPECT_TRUE(fs.access(*iv, W_OK, 1, 3333)); EXPECT_FALSE(fs.access(*iv, x_ok, 1, 3333)); EXPECT_TRUE(fs.access(*iv, R_OK, 222, 7)); EXPECT_TRUE(fs.access(*iv, W_OK, 222, 7)); EXPECT_TRUE(fs.access(*iv, x_ok, 222, 7)); } { auto fs = t.fs_from_stdout({.metadata = {.readonly = true}}); auto iv = fs.find("/access"); ASSERT_TRUE(iv); EXPECT_TRUE(fs.access(*iv, F_OK, 1, 1)); EXPECT_FALSE(fs.access(*iv, R_OK, 1, 1)); EXPECT_FALSE(fs.access(*iv, W_OK, 1, 1)); EXPECT_FALSE(fs.access(*iv, x_ok, 1, 1)); EXPECT_TRUE(fs.access(*iv, R_OK, 1, 3333)); EXPECT_FALSE(fs.access(*iv, W_OK, 1, 3333)); EXPECT_FALSE(fs.access(*iv, x_ok, 1, 3333)); EXPECT_TRUE(fs.access(*iv, R_OK, 222, 7)); EXPECT_FALSE(fs.access(*iv, W_OK, 222, 7)); EXPECT_TRUE(fs.access(*iv, x_ok, 222, 7)); } } TEST(mkdwarfs_test, chmod_norm) { std::string const image_file = "test.dwarfs"; std::set real, norm; { mkdwarfs_tester t; ASSERT_EQ(0, t.run({"-i", "/", "-o", image_file})); auto fs = t.fs_from_file(image_file); fs.walk([&](auto const& e) { real.insert(e.inode().perm_string()); }); } { mkdwarfs_tester t; ASSERT_EQ(0, t.run({"-i", "/", "-o", image_file, "--chmod=norm"})); auto fs = t.fs_from_file(image_file); fs.walk([&](auto const& e) { norm.insert(e.inode().perm_string()); }); } EXPECT_NE(real, norm); std::set expected_norm = {"r--r--r--", "r-xr-xr-x"}; EXPECT_EQ(expected_norm, norm); } TEST(mkdwarfs_test, dump_inodes) { std::string const image_file = "test.dwarfs"; std::string const inode_file = "inode.dump"; auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); t.os->add_local_files(audio_data_dir); t.os->add_local_files(fits_data_dir); t.os->add_file("random", 4096, true); t.os->add_file("large", 32 * 1024 * 1024); t.add_random_file_tree({.avg_size = 1024.0, .dimension = 8}); t.os->setenv("DWARFS_DUMP_INODES", inode_file); ASSERT_EQ(0, t.run({"-i", "/", "-o", image_file, "--categorize", "-W8"})); auto dump = t.fa->get_file(inode_file); ASSERT_TRUE(dump); EXPECT_GT(dump->size(), 1000) << dump.value(); } TEST(mkdwarfs_test, set_time_now) { auto t0 = std::chrono::system_clock::to_time_t(std::chrono::system_clock::now()); auto [regfs, regt] = build_with_args(); ASSERT_TRUE(regfs) << regt.err(); auto reg = get_all_fs_times(*regfs); auto [optfs, optt] = build_with_args({"--set-time=now"}); ASSERT_TRUE(optfs) << optt.err(); auto opt = get_all_fs_times(*optfs); auto t1 = std::chrono::system_clock::to_time_t(std::chrono::system_clock::now()); ASSERT_EQ(reg.size(), 11); ASSERT_EQ(opt.size(), 1); EXPECT_GE(*opt.begin(), t0); EXPECT_LE(*opt.begin(), t1); } TEST(mkdwarfs_test, set_time_epoch) { auto [regfs, regt] = build_with_args(); ASSERT_TRUE(regfs) << regt.err(); auto reg = get_all_fs_times(*regfs); auto [optfs, optt] = build_with_args({"--set-time=100000001"}); ASSERT_TRUE(optfs) << optt.err(); auto opt = get_all_fs_times(*optfs); EXPECT_EQ(reg.size(), 11); ASSERT_EQ(opt.size(), 1); EXPECT_EQ(*opt.begin(), 100000001); } TEST(mkdwarfs_test, set_time_epoch_string) { using namespace std::chrono_literals; using std::chrono::sys_days; auto [optfs, optt] = build_with_args({"--set-time", "2020-01-01 01:02"}); ASSERT_TRUE(optfs) << optt.err(); auto opt = get_all_fs_times(*optfs); ASSERT_EQ(opt.size(), 1); EXPECT_EQ(*opt.begin(), std::chrono::duration_cast( (sys_days{2020y / 1 / 1} + 1h + 2min).time_since_epoch()) .count()); } TEST(mkdwarfs_test, set_time_error) { auto t = mkdwarfs_tester::create_empty(); EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--set-time=InVaLiD"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("cannot parse time point")); } TEST(mkdwarfs_test, set_owner) { auto [regfs, regt] = build_with_args(); ASSERT_TRUE(regfs) << regt.err(); auto reg = get_all_fs_uids(*regfs); auto [optfs, optt] = build_with_args({"--set-owner=333"}); ASSERT_TRUE(optfs) << optt.err(); auto opt = get_all_fs_uids(*optfs); ASSERT_EQ(reg.size(), 2); ASSERT_EQ(opt.size(), 1); EXPECT_EQ(*opt.begin(), 333); } TEST(mkdwarfs_test, set_group) { auto [regfs, regt] = build_with_args(); ASSERT_TRUE(regfs) << regt.err(); auto reg = get_all_fs_gids(*regfs); auto [optfs, optt] = build_with_args({"--set-group=444"}); ASSERT_TRUE(optfs) << optt.err(); auto opt = get_all_fs_gids(*optfs); ASSERT_EQ(reg.size(), 2); ASSERT_EQ(opt.size(), 1); EXPECT_EQ(*opt.begin(), 444); } TEST(mkdwarfs_test, unrecognized_arguments) { auto t = mkdwarfs_tester::create_empty(); EXPECT_NE(0, t.run({"grmpf"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("unrecognized argument")); } TEST(mkdwarfs_test, invalid_compression_level) { auto t = mkdwarfs_tester::create_empty(); EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "-l", "10"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("invalid compression level")); } TEST(mkdwarfs_test, block_size_too_small) { auto t = mkdwarfs_tester::create_empty(); EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "-S", "1"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("block size must be between")); } TEST(mkdwarfs_test, block_size_too_large) { auto t = mkdwarfs_tester::create_empty(); EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "-S", "100"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("block size must be between")); } TEST(mkdwarfs_test, cannot_combine_input_list_and_filter) { auto t = mkdwarfs_tester::create_empty(); EXPECT_NE(0, t.run({"--input-list", "-", "-o", "-", "-F", "+ *"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("cannot combine --input-list and --filter")); } TEST(mkdwarfs_test, cannot_open_input_list_file) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"--input-list", "missing.list", "-o", "-"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("cannot open input list file")); } class mkdwarfs_recompress_test : public testing::TestWithParam {}; TEST_P(mkdwarfs_recompress_test, recompress) { std::string const compression{GetParam()}; std::string compression_type = compression; std::string const image_file = "test.dwarfs"; std::string image; reader::fsinfo_options const history_opts{ .features = {reader::fsinfo_feature::history}}; if (auto pos = compression_type.find(':'); pos != std::string::npos) { compression_type.erase(pos); } boost::algorithm::to_upper(compression_type); if (compression_type == "NULL") { compression_type = "NONE"; } { mkdwarfs_tester t; t.os->add_local_files(audio_data_dir); t.os->add_local_files(fits_data_dir); t.os->add_file("random", 4096, true); ASSERT_EQ(0, t.run({"-i", "/", "-o", image_file, "--categorize", "-C", compression})) << t.err(); auto img = t.fa->get_file(image_file); EXPECT_TRUE(img); image = std::move(img.value()); auto fs = t.fs_from_file(image_file); auto history = fs.info_as_json(history_opts)["history"]; EXPECT_EQ(1, history.size()); } auto tester = [&image_file](std::string const& image_data) { auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); t.os->add_file(image_file, image_data); return t; }; { auto t = tester(image); ASSERT_EQ(0, t.run({"-i", image_file, "-o", "-", "--recompress", "-l0"})) << t.err(); auto fs = t.fs_from_stdout(); EXPECT_TRUE(fs.find("/random")); auto history = fs.info_as_json(history_opts)["history"]; EXPECT_EQ(2, history.size()); } { auto t = tester(image); EXPECT_NE(0, t.run({"-i", image_file, "-o", "-", "--recompress=foo"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("invalid recompress mode")); } { auto t = tester(image); ASSERT_EQ(0, t.run({"-i", image_file, "-o", "-", "--recompress=metadata"})) << t.err(); auto fs = t.fs_from_stdout(); EXPECT_TRUE(fs.find("/random")); } { auto t = tester(image); ASSERT_EQ(0, t.run({"-i", image_file, "-o", "-", "--recompress=block", "--recompress-categories=!pcmaudio/waveform", "-C", "pcmaudio/metadata::null"})) << t.err(); auto fs = t.fs_from_stdout(); EXPECT_TRUE(fs.find("/random")); } #ifdef DWARFS_HAVE_FLAC { auto t = tester(image); EXPECT_EQ(1, t.run({"-i", image_file, "-o", "-", "--recompress=block", "--recompress-categories=!pcmaudio/waveform", "-C", "pcmaudio/metadata::flac:level=4"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr(fmt::format( "cannot compress {} compressed block with compressor 'flac " "[level=4]' because the following metadata requirements " "are not met: missing requirement 'bits_per_sample'", compression_type))); } #endif #ifdef DWARFS_HAVE_RICEPP { auto t = tester(image); EXPECT_EQ(1, t.run({"-i", image_file, "-o", "-", "--recompress=block", "--recompress-categories=!pcmaudio/waveform", "-C", "pcmaudio/metadata::ricepp"})) << t.err(); EXPECT_THAT( t.err(), ::testing::HasSubstr(fmt::format( "cannot compress {} compressed block with compressor 'ricepp " "[block_size=128]' because the following metadata requirements are " "not met: missing requirement 'bytes_per_sample'", compression_type))); } #endif { auto t = tester(image); EXPECT_EQ(1, t.run({"-i", image_file, "-o", "-", "--recompress", "--recompress-categories=pcmaudio/metadata,SoMeThInG"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr( "no category 'SoMeThInG' in input filesystem")); } { auto t = tester(image); EXPECT_EQ(1, t.run({"-i", image_file, "-o", "-", "--recompress", "-C", "SoMeThInG::null"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("unknown category: 'SoMeThInG'")); } { auto t = tester(image); EXPECT_EQ(0, t.run({"-i", image_file, "-o", "-", "--recompress=none", "--log-level=verbose", "--no-history"})) << t.err(); auto fs = t.fs_from_stdout(); EXPECT_TRUE(fs.find("/random")); EXPECT_EQ(0, fs.get_history().size()); EXPECT_EQ(1, fs.info_as_json(history_opts).count("history")); EXPECT_THAT(t.err(), ::testing::HasSubstr("removing HISTORY")); } { auto corrupt_image = image; corrupt_image[64] ^= 0x01; // flip a bit right after the header auto t = tester(corrupt_image); EXPECT_NE(0, t.run({"-i", image_file, "-o", "-", "--recompress"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("input filesystem is corrupt")); } } namespace { constexpr std::array const source_fs_compression = { "zstd:level=5", "null", }; } // namespace INSTANTIATE_TEST_SUITE_P(dwarfs, mkdwarfs_recompress_test, ::testing::ValuesIn(source_fs_compression)); class mkdwarfs_build_options_test : public testing::TestWithParam { DWARFS_SLOW_FIXTURE }; TEST_P(mkdwarfs_build_options_test, basic) { auto opts = GetParam(); auto options = test::parse_args(opts); std::string const image_file = "test.dwarfs"; std::vector args = {"-i", "/", "-o", image_file, "-C", "zstd:level=9"}; args.insert(args.end(), options.begin(), options.end()); auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); t.add_random_file_tree(); t.os->add_local_files(audio_data_dir); t.os->add_local_files(fits_data_dir); ASSERT_EQ(0, t.run(args)); auto fs = t.fs_from_file(image_file); fs.dump(std::cout, {.features = reader::fsinfo_features::for_level(3)}); } namespace { constexpr std::array const build_options = { "--categorize --order=none --file-hash=none", "--categorize=pcmaudio --order=path", "--categorize --order=revpath --file-hash=sha512", "--categorize=pcmaudio,incompressible --order=similarity", "--categorize --order=nilsimsa --time-resolution=30", "--categorize --order=nilsimsa:max-children=1k --time-resolution=hour", "--categorize --order=nilsimsa:max-cluster-size=16:max-children=16 " "--max-similarity-size=1M", "--categorize -B4 -S18", }; } // namespace INSTANTIATE_TEST_SUITE_P(dwarfs, mkdwarfs_build_options_test, ::testing::ValuesIn(build_options)); TEST(mkdwarfs_test, order_invalid) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--order=grmpf"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("invalid inode order mode")); } TEST(mkdwarfs_test, order_nilsimsa_invalid_option) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--order=nilsimsa:grmpf"})); EXPECT_THAT(t.err(), ::testing::HasSubstr( "invalid option(s) for choice nilsimsa: grmpf")); } TEST(mkdwarfs_test, order_nilsimsa_invalid_value) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--order=nilsimsa:max-children=0"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("invalid max-children value: 0")); } TEST(mkdwarfs_test, order_nilsimsa_cannot_parse_value) { mkdwarfs_tester t; EXPECT_NE( 0, t.run({"-i", "/", "-o", "-", "--order=nilsimsa:max-cluster-size=-1"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("cannot parse size value")); } TEST(mkdwarfs_test, order_nilsimsa_duplicate_option) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--order=nilsimsa:max-cluster-size=1:max-cluster-size=10"})); EXPECT_THAT(t.err(), ::testing::HasSubstr( "duplicate option max-cluster-size for choice nilsimsa")); } TEST(mkdwarfs_test, unknown_file_hash) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--file-hash=grmpf"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("unknown file hash function")); } TEST(mkdwarfs_test, invalid_filter_debug_mode) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--debug-filter=grmpf"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("invalid filter debug mode")); } TEST(mkdwarfs_test, invalid_progress_mode) { mkdwarfs_tester t; t.iol->set_terminal_is_tty(true); t.iol->set_terminal_fancy(true); EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--progress=grmpf"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("invalid progress mode")); } TEST(mkdwarfs_test, invalid_filter_rule) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "-F", "grmpf"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("could not parse filter rule")); } TEST(mkdwarfs_test, time_resolution_zero) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--time-resolution=0"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("'--time-resolution' must be nonzero")); } TEST(mkdwarfs_test, time_resolution_invalid) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--time-resolution=grmpf"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("'--time-resolution' is invalid")); } namespace { constexpr std::array const debug_filter_mode_names = { "included", "excluded", "included-files", "excluded-files", "files", "all", }; const std::map debug_filter_modes{ {"included", writer::debug_filter_mode::INCLUDED}, {"included-files", writer::debug_filter_mode::INCLUDED_FILES}, {"excluded", writer::debug_filter_mode::EXCLUDED}, {"excluded-files", writer::debug_filter_mode::EXCLUDED_FILES}, {"files", writer::debug_filter_mode::FILES}, {"all", writer::debug_filter_mode::ALL}, }; } // namespace class filter_test : public testing::TestWithParam< std::tuple> { }; TEST_P(filter_test, debug_filter) { auto [data, mode] = GetParam(); auto t = mkdwarfs_tester::create_empty(); t.add_test_file_tree(); t.fa->set_file("filter.txt", data.filter()); ASSERT_EQ(0, t.run({"-i", "/", "-F", ". filter.txt", "--debug-filter=" + std::string(mode)})) << t.err(); auto expected = data.get_expected_filter_output(debug_filter_modes.at(mode)); EXPECT_EQ(expected, t.out()); } INSTANTIATE_TEST_SUITE_P( mkdwarfs_test, filter_test, ::testing::Combine(::testing::ValuesIn(dwarfs::test::get_filter_tests()), ::testing::ValuesIn(debug_filter_mode_names))); TEST(mkdwarfs_test, filter_recursion) { auto t = mkdwarfs_tester::create_empty(); t.add_test_file_tree(); t.fa->set_file("filt1.txt", ". filt2.txt\n"); t.fa->set_file("filt2.txt", ". filt3.txt\n"); t.fa->set_file("filt3.txt", "# here we recurse\n. filt1.txt\n"); EXPECT_EQ(1, t.run({"-i", "/", "-o", "-", "-F", ". filt1.txt"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr( "recursion detected while opening file: filt1.txt")); } TEST(mkdwarfs_test, filter_root_dir) { auto t = mkdwarfs_tester::create_empty(); t.add_test_file_tree(); EXPECT_EQ(0, t.run({"-i", "/", "-o", "-", "-F", "- /var/", "-F", "- /usr/"})) << t.err(); auto fs = t.fs_from_stdout(); EXPECT_TRUE(fs.find("/")); EXPECT_FALSE(fs.find("/var")); EXPECT_FALSE(fs.find("/usr")); EXPECT_TRUE(fs.find("/dev")); EXPECT_TRUE(fs.find("/etc")); } namespace { constexpr std::array const pack_mode_names = { "chunk_table", "directories", "shared_files", "names", "names_index", "symlinks", "symlinks_index", "force", "plain", }; } TEST(mkdwarfs_test, pack_modes_random) { DWARFS_SLOW_TEST(); std::mt19937_64 rng{42}; std::uniform_int_distribution<> dist{1, pack_mode_names.size()}; for (int i = 0; i < 50; ++i) { std::vector modes(pack_mode_names.begin(), pack_mode_names.end()); std::shuffle(modes.begin(), modes.end(), rng); modes.resize(dist(rng)); auto mode_arg = fmt::format("{}", fmt::join(modes, ",")); auto t = mkdwarfs_tester::create_empty(); t.add_test_file_tree(); t.add_random_file_tree({.avg_size = 128.0, .dimension = 16}); ASSERT_EQ( 0, t.run({"-i", "/", "-o", "-", "-l1", "--pack-metadata=" + mode_arg})) << t.err(); auto fs = t.fs_from_stdout(); auto info = fs.info_as_json({.features = reader::fsinfo_features::for_level(2)}); std::set ms(modes.begin(), modes.end()); std::set fsopt; for (auto const& opt : info["options"]) { fsopt.insert(opt.get()); } auto ctx = mode_arg + "\n" + fs.dump({.features = reader::fsinfo_features::for_level(2)}); EXPECT_EQ(ms.count("chunk_table"), fsopt.count("packed_chunk_table")) << ctx; EXPECT_EQ(ms.count("directories"), fsopt.count("packed_directories")) << ctx; EXPECT_EQ(ms.count("shared_files"), fsopt.count("packed_shared_files_table")) << ctx; if (ms.count("plain")) { EXPECT_EQ(0, fsopt.count("packed_names")) << ctx; EXPECT_EQ(0, fsopt.count("packed_names_index")) << ctx; EXPECT_EQ(0, fsopt.count("packed_symlinks")) << ctx; EXPECT_EQ(0, fsopt.count("packed_symlinks_index")) << ctx; } } } TEST(mkdwarfs_test, pack_mode_none) { auto t = mkdwarfs_tester::create_empty(); t.add_test_file_tree(); t.add_random_file_tree({.avg_size = 128.0, .dimension = 16}); ASSERT_EQ(0, t.run({"-i", "/", "-o", "-", "-l1", "--pack-metadata=none"})) << t.err(); auto fs = t.fs_from_stdout(); auto info = fs.info_as_json({.features = reader::fsinfo_features::for_level(2)}); std::set fsopt; for (auto const& opt : info["options"]) { fsopt.insert(opt.get()); } fsopt.erase("mtime_only"); EXPECT_TRUE(fsopt.empty()) << info["options"].dump(); } TEST(mkdwarfs_test, pack_mode_all) { auto t = mkdwarfs_tester::create_empty(); t.add_test_file_tree(); t.add_random_file_tree({.avg_size = 128.0, .dimension = 16}); ASSERT_EQ(0, t.run({"-i", "/", "-o", "-", "-l1", "--pack-metadata=all"})) << t.err(); auto fs = t.fs_from_stdout(); auto info = fs.info_as_json({.features = reader::fsinfo_features::for_level(2)}); std::set expected = {"packed_chunk_table", "packed_directories", "packed_names", "packed_names_index", "packed_shared_files_table", "packed_symlinks_index"}; std::set fsopt; for (auto const& opt : info["options"]) { fsopt.insert(opt.get()); } fsopt.erase("mtime_only"); EXPECT_EQ(expected, fsopt) << info["options"].dump(); } TEST(mkdwarfs_test, pack_mode_invalid) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--pack-metadata=grmpf"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("'--pack-metadata' is invalid")); } TEST(mkdwarfs_test, filesystem_header) { auto const header = test::loremipsum(333); mkdwarfs_tester t; t.fa->set_file("header.txt", header); ASSERT_EQ(0, t.run({"-i", "/", "-o", "-", "--header=header.txt"})) << t.err(); auto image = t.out(); auto fs = t.fs_from_data( image, {.image_offset = reader::filesystem_options::IMAGE_OFFSET_AUTO}); auto hdr = fs.header(); ASSERT_TRUE(hdr); std::string actual(reinterpret_cast(hdr->data()), hdr->size()); EXPECT_EQ(header, actual); auto os = std::make_shared(); os->add("", {1, 040755, 1, 0, 0, 10, 42, 0, 0, 0}); os->add_file("image.dwarfs", image); { dwarfsck_tester t2(os); EXPECT_EQ(0, t2.run({"image.dwarfs", "--print-header"})) << t2.err(); EXPECT_EQ(header, t2.out()); } { mkdwarfs_tester t2(os); ASSERT_EQ(0, t2.run({"-i", "image.dwarfs", "-o", "-", "--recompress=none", "--remove-header"})) << t2.err(); auto fs2 = t2.fs_from_stdout(); EXPECT_FALSE(fs2.header()); } } TEST(mkdwarfs_test, filesystem_header_error) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--header=header.txt"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("cannot open header file")); } TEST(mkdwarfs_test, output_file_exists) { mkdwarfs_tester t; t.fa->set_file("exists.dwarfs", "bla"); EXPECT_NE(0, t.run({"-i", "/", "-o", "exists.dwarfs"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("output file already exists")); } TEST(mkdwarfs_test, output_file_force) { mkdwarfs_tester t; t.fa->set_file("exists.dwarfs", "bla"); ASSERT_EQ(0, t.run({"-i", "/", "-o", "exists.dwarfs", "-l1", "--force"})) << t.err(); auto fs = t.fs_from_file("exists.dwarfs"); EXPECT_TRUE(fs.find("/foo.pl")); } TEST(mkdwarfs_test, output_file_fail_open) { mkdwarfs_tester t; t.fa->set_file("exists.dwarfs", "bla"); t.fa->set_open_error( "exists.dwarfs", std::make_error_code(std::errc::device_or_resource_busy)); EXPECT_NE(0, t.run({"-i", "/", "-o", "exists.dwarfs", "--force"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("cannot open output file")); } TEST(mkdwarfs_test, output_file_fail_close) { mkdwarfs_tester t; t.fa->set_close_error("test.dwarfs", std::make_error_code(std::errc::no_space_on_device)); EXPECT_NE(0, t.run({"-i", "/", "-o", "test.dwarfs"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("failed to close output file")); } #ifdef DWARFS_HAVE_RICEPP TEST(mkdwarfs_test, compression_cannot_be_used_without_category) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "-C", "ricepp"})); EXPECT_THAT(t.err(), ::testing::HasSubstr("cannot be used without a category")); } TEST(mkdwarfs_test, compression_cannot_be_used_for_category) { mkdwarfs_tester t; EXPECT_NE(0, t.run({"-i", "/", "-o", "-", "--categorize", "-C", "incompressible::ricepp"})); EXPECT_THAT(t.err(), ::testing::HasSubstr( "cannot be used for category 'incompressible': " "metadata requirements not met")); } #endif class mkdwarfs_progress_test : public testing::TestWithParam { DWARFS_SLOW_FIXTURE }; TEST_P(mkdwarfs_progress_test, basic) { std::string mode{GetParam()}; std::string const image_file = "test.dwarfs"; std::vector args{ "-i", "/", "-o", image_file, "--file-hash=sha512", "--progress", mode}; auto t = mkdwarfs_tester::create_empty(); t.iol->set_terminal_is_tty(true); t.iol->set_terminal_fancy(true); t.add_root_dir(); t.add_random_file_tree({ .avg_size = 20.0 * 1024 * 1024, .dimension = 2, #ifndef _WIN32 // Windows can't deal with non-UTF-8 filenames .with_invalid_utf8 = true, #endif }); t.os->add_local_files(audio_data_dir); t.os->add_local_files(fits_data_dir); ASSERT_EQ(0, t.run(args)); EXPECT_TRUE(t.out().empty()) << t.out(); } namespace { constexpr std::array const progress_modes{ "none", "simple", "ascii", "unicode", }; } // namespace INSTANTIATE_TEST_SUITE_P(dwarfs, mkdwarfs_progress_test, ::testing::ValuesIn(progress_modes)); TEST(dwarfsextract_test, mtree) { auto t = dwarfsextract_tester::create_with_image(); ASSERT_EQ(0, t.run({"-i", "image.dwarfs", "-f", "mtree"})) << t.err(); auto out = t.out(); EXPECT_TRUE(out.starts_with("#mtree")) << out; EXPECT_THAT(out, ::testing::HasSubstr("type=dir")); EXPECT_THAT(out, ::testing::HasSubstr("type=file")); } TEST(dwarfsextract_test, stdout_progress_error) { auto t = dwarfsextract_tester::create_with_image(); EXPECT_NE(0, t.run({"-i", "image.dwarfs", "-f", "mtree", "--stdout-progress"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr( "cannot use --stdout-progress with --output=-")); } TEST(dwarfsck_test, check_exclusive) { auto t = dwarfsck_tester::create_with_image(); EXPECT_NE(0, t.run({"image.dwarfs", "--no-check", "--check-integrity"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr( "--no-check and --check-integrity are mutually exclusive")); } TEST(dwarfsck_test, print_header_and_json) { auto t = dwarfsck_tester::create_with_image(); EXPECT_NE(0, t.run({"image.dwarfs", "--print-header", "--json"})) << t.err(); EXPECT_THAT(t.err(), ::testing::ContainsRegex( "--print-header is mutually exclusive with.*--json")); } TEST(dwarfsck_test, print_header) { std::string const header = "interesting stuff in the header\n"; auto image = build_test_image({"--header", "header.txt"}, {{"header.txt", header}}); { auto t = dwarfsck_tester::create_with_image(image); EXPECT_EQ(0, t.run({"image.dwarfs", "--print-header"})) << t.err(); EXPECT_EQ(header, t.out()); } { auto t = dwarfsck_tester::create_with_image(image); t.iol->out_stream().setstate(std::ios_base::failbit); EXPECT_EQ(1, t.run({"image.dwarfs", "--print-header"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("error writing header")); } } TEST(dwarfsck_test, check_fail) { static constexpr size_t section_header_size{64}; auto image = build_test_image(); { auto t = dwarfsck_tester::create_with_image(image); EXPECT_EQ(0, t.run({"image.dwarfs"})) << t.err(); } { auto t = dwarfsck_tester::create_with_image(image); EXPECT_EQ(0, t.run({"image.dwarfs", "--check-integrity"})) << t.err(); } std::vector> section_offsets; { auto t = dwarfsck_tester::create_with_image(image); EXPECT_EQ(0, t.run({"image.dwarfs", "--no-check", "-j", "-d3"})) << t.err(); auto info = nlohmann::json::parse(t.out()); ASSERT_TRUE(info.count("sections") > 0) << info; size_t offset = 0; for (auto const& section : info["sections"]) { auto type = section["type"].get(); auto size = section["compressed_size"].get(); section_offsets.emplace_back(type, offset); offset += section_header_size + size; } EXPECT_EQ(image.size(), offset); } size_t index = 0; for (auto const& [type, offset] : section_offsets) { bool const is_metadata_section = type == "METADATA_V2" || type == "METADATA_V2_SCHEMA"; bool const is_block = type == "BLOCK"; auto corrupt_image = image; // flip a bit right after the header corrupt_image[offset + section_header_size] ^= 0x01; // std::cout << "corrupting section: " << type << " @ " << offset << "\n"; { test::test_logger lgr; test::os_access_mock os; auto make_fs = [&] { return reader::filesystem_v2{ lgr, os, std::make_shared(corrupt_image)}; }; if (is_metadata_section) { EXPECT_THAT([&] { make_fs(); }, ::testing::ThrowsMessage( ::testing::HasSubstr(fmt::format( "checksum error in section: {}", type)))); } else { auto fs = make_fs(); auto& log = lgr.get_log(); if (is_block) { EXPECT_EQ(0, log.size()); } else { ASSERT_EQ(1, log.size()); EXPECT_THAT(log[0].output, ::testing::HasSubstr( fmt::format("checksum error in section: {}", type))); } auto info = fs.info_as_json( {.features = reader::fsinfo_features::for_level(3)}); ASSERT_EQ(1, info.count("sections")); ASSERT_EQ(section_offsets.size(), info["sections"].size()); for (auto const& [i, section] : ranges::views::enumerate(info["sections"])) { EXPECT_EQ(section["checksum_ok"].get(), i != index) << type << ", " << index; } auto dump = fs.dump({.features = reader::fsinfo_features::for_level(3)}); EXPECT_THAT(dump, ::testing::HasSubstr("CHECKSUM ERROR")); } } { auto t = dwarfsck_tester::create_with_image(corrupt_image); if (is_metadata_section) { EXPECT_EQ(1, t.run({"image.dwarfs", "--no-check", "-j"})) << t.err(); } else { EXPECT_EQ(0, t.run({"image.dwarfs", "--no-check", "-j"})) << t.err(); } // for blocks, we skip checks with --no-check if (!is_block) { EXPECT_THAT(t.err(), ::testing::HasSubstr(fmt::format( "checksum error in section: {}", type))); } auto json = t.out(); // std::cout << "[" << type << ", nocheck]\n" << json << "\n"; if (is_metadata_section) { EXPECT_EQ(0, json.size()) << json; } else { EXPECT_GT(json.size(), 100) << json; EXPECT_TRUE(nlohmann::json::accept(json)) << json; } } { auto t = dwarfsck_tester::create_with_image(corrupt_image); EXPECT_EQ(1, t.run({"image.dwarfs", "-j"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr(fmt::format( "checksum error in section: {}", type))); auto json = t.out(); // std::cout << "[" << type << "]\n" << json << "\n"; if (is_metadata_section) { EXPECT_EQ(0, json.size()) << json; } else { EXPECT_GT(json.size(), 100) << json; EXPECT_TRUE(nlohmann::json::accept(json)) << json; } } { auto t = dwarfsck_tester::create_with_image(corrupt_image); EXPECT_EQ(1, t.run({"image.dwarfs", "--check-integrity", "-j"})) << t.err(); if (is_block) { EXPECT_THAT(t.err(), ::testing::HasSubstr(fmt::format( "integrity check error in section: BLOCK"))); } else { EXPECT_THAT(t.err(), ::testing::HasSubstr(fmt::format( "checksum error in section: {}", type))); } auto json = t.out(); // std::cout << "[" << type << ", integrity]\n" << json << "\n"; if (is_metadata_section) { EXPECT_EQ(0, json.size()) << json; } else { EXPECT_GT(json.size(), 100) << json; EXPECT_TRUE(nlohmann::json::accept(json)) << json; } } { auto t = dwarfsck_tester::create_with_image(corrupt_image); EXPECT_EQ(1, t.run({"image.dwarfs", "-d3"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr(fmt::format( "checksum error in section: {}", type))); if (is_metadata_section) { EXPECT_EQ(0, t.out().size()) << t.out(); } else { EXPECT_THAT(t.out(), ::testing::HasSubstr("CHECKSUM ERROR")); } } ++index; } } TEST(dwarfsck_test, print_header_and_export_metadata) { auto t = dwarfsck_tester::create_with_image(); EXPECT_NE(0, t.run({"image.dwarfs", "--print-header", "--export-metadata=image.meta"})) << t.err(); EXPECT_THAT( t.err(), ::testing::ContainsRegex( "--print-header is mutually exclusive with.*--export-metadata")); } TEST(dwarfsck_test, print_header_and_check_integrity) { auto t = dwarfsck_tester::create_with_image(); EXPECT_NE(0, t.run({"image.dwarfs", "--print-header", "--check-integrity"})) << t.err(); EXPECT_THAT( t.err(), ::testing::ContainsRegex( "--print-header is mutually exclusive with.*--check-integrity")); } TEST(dwarfsck_test, print_header_no_header) { auto t = dwarfsck_tester::create_with_image(); EXPECT_EQ(2, t.run({"image.dwarfs", "--print-header"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("filesystem does not contain a header")); } TEST(dwarfsck_test, export_metadata) { auto t = dwarfsck_tester::create_with_image(); ASSERT_EQ(0, t.run({"image.dwarfs", "--export-metadata=image.meta"})) << t.err(); auto meta = t.fa->get_file("image.meta"); ASSERT_TRUE(meta); EXPECT_GT(meta->size(), 1000); EXPECT_TRUE(nlohmann::json::accept(meta.value())) << meta.value(); } TEST(dwarfsck_test, export_metadata_open_error) { auto t = dwarfsck_tester::create_with_image(); t.fa->set_open_error( "image.meta", std::make_error_code(std::errc::device_or_resource_busy)); EXPECT_NE(0, t.run({"image.dwarfs", "--export-metadata=image.meta"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("failed to open metadata output file")); } TEST(dwarfsck_test, export_metadata_close_error) { auto t = dwarfsck_tester::create_with_image(); t.fa->set_close_error("image.meta", std::make_error_code(std::errc::no_space_on_device)); EXPECT_NE(0, t.run({"image.dwarfs", "--export-metadata=image.meta"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("failed to close metadata output file")); } TEST(dwarfsck_test, checksum_algorithm_not_available) { auto t = dwarfsck_tester::create_with_image(); EXPECT_NE(0, t.run({"image.dwarfs", "--checksum=grmpf"})) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("checksum algorithm not available: grmpf")); } TEST(dwarfsck_test, list_files) { auto t = dwarfsck_tester::create_with_image(); EXPECT_EQ(0, t.run({"image.dwarfs", "--list"})) << t.err(); auto out = t.out(); auto files = split_to>(out, '\n'); std::set const expected{ "test.pl", "somelink", "somedir", "foo.pl", "bar.pl", "baz.pl", "ipsum.txt", "somedir/ipsum.py", "somedir/bad", "somedir/empty", "empty", }; EXPECT_EQ(expected, files); } TEST(dwarfsck_test, list_files_verbose) { auto t = dwarfsck_tester::create_with_image(); EXPECT_EQ(0, t.run({"image.dwarfs", "--list", "--verbose"})) << t.err(); auto out = t.out(); auto num_lines = std::count(out.begin(), out.end(), '\n'); EXPECT_EQ(12, num_lines); std::vector expected_re{ fmt::format("drwxrwxrwx\\s+1000/100\\s+8\\s+{:%Y-%m-%d %H:%M}\\s*\n", fmt::localtime(2)), fmt::format( "-rw-------\\s+1337/ 0\\s+{:L}\\s+{:%Y-%m-%d %H:%M}\\s+baz.pl\n", 23456, fmt::localtime(8002)), fmt::format("lrwxrwxrwx\\s+1000/100\\s+16\\s+{:%Y-%m-%d " "%H:%M}\\s+somelink -> somedir/ipsum.py\n", fmt::localtime(2002)), }; for (auto const& str : expected_re) { std::regex re{str}; EXPECT_TRUE(std::regex_search(out, re)) << "[" << str << "]\n" << out; } } TEST(dwarfsck_test, checksum_files) { auto t = dwarfsck_tester::create_with_image(); EXPECT_EQ(0, t.run({"image.dwarfs", "--checksum=md5"})) << t.err(); auto out = t.out(); auto num_lines = std::count(out.begin(), out.end(), '\n'); EXPECT_EQ(8, num_lines); std::map actual; for (auto line : split_view(out, '\n')) { if (line.empty()) { continue; } auto pos = line.find(" "); ASSERT_NE(std::string::npos, pos); auto hash = line.substr(0, pos); auto file = line.substr(pos + 2); EXPECT_TRUE(actual.emplace(file, hash).second); } std::map const expected{ {"empty", "d41d8cd98f00b204e9800998ecf8427e"}, {"somedir/empty", "d41d8cd98f00b204e9800998ecf8427e"}, {"test.pl", "d41d8cd98f00b204e9800998ecf8427e"}, {"baz.pl", "e2bd36391abfd15dcc83cbdfb60a6bc3"}, {"somedir/ipsum.py", "70fe813c36ed50ebd7f4991857683676"}, {"foo.pl", "e2bd36391abfd15dcc83cbdfb60a6bc3"}, {"bar.pl", "e2bd36391abfd15dcc83cbdfb60a6bc3"}, {"ipsum.txt", "0782b6a546cedd8be8fc86ac47dc6d96"}, }; EXPECT_EQ(expected, actual); } class mkdwarfs_sim_order_test : public testing::TestWithParam {}; TEST(mkdwarfs_test, max_similarity_size) { static constexpr std::array sizes{50, 100, 200, 500, 1000, 2000, 5000, 10000}; auto make_tester = [] { std::mt19937_64 rng{42}; auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); for (auto size : sizes) { auto data = test::create_random_string(size, rng); t.os->add_file("/file" + std::to_string(size), data); } return t; }; auto get_sizes_in_offset_order = [](reader::filesystem_v2 const& fs) { std::vector> tmp; for (auto size : sizes) { auto path = "/file" + std::to_string(size); auto iv = fs.find(path.c_str()); assert(iv); auto info = fs.get_inode_info(*iv); assert(1 == info["chunks"].size()); auto const& chunk = info["chunks"][0]; tmp.emplace_back(chunk["offset"].get(), chunk["size"].get()); } std::sort(tmp.begin(), tmp.end(), [](auto const& a, auto const& b) { return a.first < b.first; }); std::vector sizes; std::transform(tmp.begin(), tmp.end(), std::back_inserter(sizes), [](auto const& p) { return p.second; }); return sizes; }; auto partitioned_sizes = [&](std::vector in, size_t max_size) { auto mid = std::stable_partition( in.begin(), in.end(), [=](auto size) { return size > max_size; }); std::sort(in.begin(), mid, std::greater()); return in; }; std::vector sim_ordered_sizes; std::vector nilsimsa_ordered_sizes; { auto t = make_tester(); ASSERT_EQ(0, t.run("-i / -o - -l0 --order=similarity")) << t.err(); auto fs = t.fs_from_stdout(); sim_ordered_sizes = get_sizes_in_offset_order(fs); } { auto t = make_tester(); ASSERT_EQ(0, t.run("-i / -o - -l0 --order=nilsimsa")) << t.err(); auto fs = t.fs_from_stdout(); nilsimsa_ordered_sizes = get_sizes_in_offset_order(fs); } EXPECT_FALSE( std::is_sorted(sim_ordered_sizes.begin(), sim_ordered_sizes.end())); static constexpr std::array max_sim_sizes{0, 1, 200, 999, 1000, 1001, 5000, 10000}; std::set nilsimsa_results; for (auto max_sim_size : max_sim_sizes) { { auto t = make_tester(); EXPECT_EQ(0, t.run(fmt::format( "-i / -o - -l0 --order=similarity --max-similarity-size={}", max_sim_size))) << t.err(); auto fs = t.fs_from_stdout(); auto ordered_sizes = get_sizes_in_offset_order(fs); if (max_sim_size == 0) { EXPECT_EQ(sim_ordered_sizes, ordered_sizes) << max_sim_size; } else { auto partitioned = partitioned_sizes(sim_ordered_sizes, max_sim_size); EXPECT_EQ(partitioned, ordered_sizes) << max_sim_size; } } { auto t = make_tester(); EXPECT_EQ(0, t.run(fmt::format( "-i / -o - -l0 --order=nilsimsa --max-similarity-size={}", max_sim_size))) << t.err(); auto fs = t.fs_from_stdout(); auto ordered_sizes = get_sizes_in_offset_order(fs); nilsimsa_results.insert(fmt::format("{}", fmt::join(ordered_sizes, ","))); if (max_sim_size == 0) { EXPECT_EQ(nilsimsa_ordered_sizes, ordered_sizes) << max_sim_size; } else { std::vector expected; std::copy_if(sizes.begin(), sizes.end(), std::back_inserter(expected), [=](auto size) { return size > max_sim_size; }); std::sort(expected.begin(), expected.end(), std::greater()); ordered_sizes.resize(expected.size()); EXPECT_EQ(expected, ordered_sizes) << max_sim_size; } } } EXPECT_GE(nilsimsa_results.size(), 3); } TEST(mkdwarfs_test, low_memory_limit) { { mkdwarfs_tester t; EXPECT_EQ( 0, t.run("-i / -o - -l5 --log-level=warn -S 27 --num-workers=8 -L 1g")); EXPECT_THAT(t.err(), ::testing::Not(::testing::HasSubstr("low memory limit"))); } { mkdwarfs_tester t; EXPECT_EQ( 0, t.run("-i / -o - -l5 --log-level=warn -S 28 --num-workers=8 -L 1g")); EXPECT_THAT(t.err(), ::testing::HasSubstr("low memory limit")); } } TEST(mkdwarfs_test, recoverable_errors) { { mkdwarfs_tester t; t.os->set_access_fail("/somedir/ipsum.py"); EXPECT_EQ(2, t.run("-i / -o - -l4")) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("filesystem created with 1 error")); } { mkdwarfs_tester t; t.os->set_access_fail("/somedir/ipsum.py"); t.os->set_access_fail("/baz.pl"); EXPECT_EQ(2, t.run("-i / -o - -l4")) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("filesystem created with 2 errors")); } } TEST(mkdwarfs_test, filesystem_read_error) { mkdwarfs_tester t; EXPECT_EQ(0, t.run("-i / -o -")) << t.err(); auto fs = t.fs_from_stdout(); auto iv = fs.find("/somedir"); ASSERT_TRUE(iv); EXPECT_TRUE(iv->is_directory()); EXPECT_THAT([&] { fs.open(*iv); }, ::testing::Throws()); { std::error_code ec; auto res = fs.open(*iv, ec); EXPECT_TRUE(ec); EXPECT_EQ(EINVAL, ec.value()); EXPECT_EQ(0, res); } { char buf[1]; std::error_code ec; auto num = fs.read(iv->inode_num(), buf, sizeof(buf), ec); EXPECT_TRUE(ec); EXPECT_EQ(0, num); EXPECT_EQ(EINVAL, ec.value()); EXPECT_THAT([&] { fs.read(iv->inode_num(), buf, sizeof(buf)); }, ::testing::Throws()); } { reader::iovec_read_buf buf; std::error_code ec; auto num = fs.readv(iv->inode_num(), buf, 42, ec); EXPECT_EQ(0, num); EXPECT_TRUE(ec); EXPECT_EQ(EINVAL, ec.value()); } { std::error_code ec; auto res = fs.readv(iv->inode_num(), 42, ec); EXPECT_TRUE(ec); EXPECT_EQ(EINVAL, ec.value()); } EXPECT_THAT([&] { fs.readv(iv->inode_num(), 42); }, ::testing::Throws()); } class segmenter_repeating_sequence_test : public testing::TestWithParam { DWARFS_SLOW_FIXTURE }; TEST_P(segmenter_repeating_sequence_test, github161) { auto byte = GetParam(); static constexpr int const final_bytes{10'000'000}; static constexpr int const repetitions{2'000}; auto match = test::create_random_string(5'000); auto suffix = test::create_random_string(50); auto sequence = std::string(3'000, byte); std::string content; content.reserve(match.size() + suffix.size() + (sequence.size() + match.size()) * repetitions + final_bytes); content += match + suffix; for (int i = 0; i < repetitions; ++i) { content += sequence + match; } content += std::string(final_bytes, byte); auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); t.os->add_file("/bug", content); ASSERT_EQ(0, t.run("-i / -o - -C lz4 -W12 --log-level=verbose --no-progress")) << t.err(); auto log = t.err(); { std::regex const re{fmt::format( "avoided \\d\\d\\d\\d+ collisions in 0x{:02x}-byte sequences", byte)}; EXPECT_TRUE(std::regex_search(log, re)) << log; } { std::regex const re{"segment matches: good=(\\d+), bad=(\\d+), " "collisions=(\\d+), total=(\\d+)"}; std::smatch m; ASSERT_TRUE(std::regex_search(log, m, re)) << log; auto good = std::stoi(m[1]); auto bad = std::stoi(m[2]); auto collisions = std::stoi(m[3]); auto total = std::stoi(m[4]); EXPECT_GT(good, 2000); EXPECT_EQ(0, bad); EXPECT_EQ(0, collisions); EXPECT_GT(total, 2000); } } INSTANTIATE_TEST_SUITE_P(dwarfs, segmenter_repeating_sequence_test, ::testing::Values('\0', 'G', '\xff')); TEST(mkdwarfs_test, map_file_error) { mkdwarfs_tester t; t.os->set_map_file_error( "/somedir/ipsum.py", std::make_exception_ptr(std::runtime_error("map_file_error"))); EXPECT_EQ(2, t.run("-i / -o - --categorize")) << t.err(); EXPECT_THAT(t.err(), ::testing::HasSubstr("map_file_error, creating empty inode")); EXPECT_THAT(t.err(), ::testing::HasSubstr("filesystem created with 1 error")); } class map_file_error_test : public testing::TestWithParam {}; TEST_P(map_file_error_test, delayed) { std::string extra_args{GetParam()}; auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); t.os->add_local_files(audio_data_dir); auto files = t.add_random_file_tree({.avg_size = 64.0, .dimension = 20, .max_name_len = 8, .with_errors = true}); static constexpr size_t const kSizeSmall{1 << 10}; static constexpr size_t const kSizeLarge{1 << 20}; auto gen_small = [] { return test::loremipsum(kSizeLarge); }; auto gen_large = [] { return test::loremipsum(kSizeLarge); }; t.os->add("large_link1", {43, 0100755, 2, 1000, 100, kSizeLarge, 42, 0, 0, 0}, gen_large); t.os->add("large_link2", {43, 0100755, 2, 1000, 100, kSizeLarge, 42, 0, 0, 0}, gen_large); t.os->add("small_link1", {44, 0100755, 2, 1000, 100, kSizeSmall, 42, 0, 0, 0}, gen_small); t.os->add("small_link2", {44, 0100755, 2, 1000, 100, kSizeSmall, 42, 0, 0, 0}, gen_small); for (auto const& link : {"large_link1", "large_link2", "small_link1", "small_link2"}) { t.os->set_map_file_error( fs::path{"/"} / link, std::make_exception_ptr(std::runtime_error("map_file_error")), 0); } { std::mt19937_64 rng{42}; for (auto const& p : fs::recursive_directory_iterator(audio_data_dir)) { if (p.is_regular_file()) { auto fp = fs::relative(p.path(), audio_data_dir); files.emplace_back(fp, read_file(p.path())); if (rng() % 2 == 0) { t.os->set_map_file_error( fs::path{"/"} / fp, std::make_exception_ptr(std::runtime_error("map_file_error")), rng() % 4); } } } } t.os->setenv("DWARFS_DUMP_INODES", "inodes.dump"); // t.iol->use_real_terminal(true); std::string args = "-i / -o test.dwarfs --no-progress --log-level=verbose"; if (!extra_args.empty()) { args += " " + extra_args; } EXPECT_EQ(2, t.run(args)) << t.err(); auto fs = t.fs_from_file("test.dwarfs", {.metadata = {.enable_nlink = true}}); // fs.dump(std::cout, {.features = reader::fsinfo_features::for_level(2)}); { auto large_link1 = fs.find("/large_link1"); auto large_link2 = fs.find("/large_link2"); auto small_link1 = fs.find("/small_link1"); auto small_link2 = fs.find("/small_link2"); ASSERT_TRUE(large_link1); ASSERT_TRUE(large_link2); ASSERT_TRUE(small_link1); ASSERT_TRUE(small_link2); EXPECT_EQ(large_link1->inode_num(), large_link2->inode_num()); EXPECT_EQ(small_link1->inode_num(), small_link2->inode_num()); EXPECT_EQ(0, fs.getattr(*large_link1).size()); EXPECT_EQ(0, fs.getattr(*small_link1).size()); } std::unordered_map actual_files; fs.walk([&](auto const& dev) { auto iv = dev.inode(); if (iv.is_regular_file()) { std::string data; auto stat = fs.getattr(iv); data.resize(stat.size()); ASSERT_EQ(data.size(), fs.read(iv.inode_num(), data.data(), data.size())); ASSERT_TRUE(actual_files.emplace(dev.fs_path(), std::move(data)).second); } }); // check that: // - all original files are present // - they're either empty (in case of errors) or have the original content size_t num_non_empty = 0; auto failed_expected = t.os->get_failed_paths(); std::set failed_actual; for (auto const& [path, data] : files) { auto it = actual_files.find(path); ASSERT_NE(actual_files.end(), it); if (!it->second.empty()) { EXPECT_EQ(data, it->second); ++num_non_empty; } else if (!data.empty()) { failed_actual.insert(fs::path("/") / path); } else { failed_expected.erase(fs::path("/") / path); } } EXPECT_LE(failed_actual.size(), failed_expected.size()); EXPECT_GT(files.size(), 8000); EXPECT_GT(num_non_empty, 4000); // Ensure that files which never had any errors are all present std::set surprisingly_missing; std::set_difference( failed_actual.begin(), failed_actual.end(), failed_expected.begin(), failed_expected.end(), std::inserter(surprisingly_missing, surprisingly_missing.begin())); std::unordered_map original_files( files.begin(), files.end()); EXPECT_EQ(0, surprisingly_missing.size()); for (auto const& path : surprisingly_missing) { std::cout << "surprisingly missing: " << path << "\n"; auto it = original_files.find(path.relative_path()); ASSERT_NE(original_files.end(), it); std::cout << "--- original (" << it->second.size() << " bytes) ---\n"; // std::cout << folly::hexDump(it->second.data(), it->second.size()) << // "\n"; } auto dump = t.fa->get_file("inodes.dump"); ASSERT_TRUE(dump); if (extra_args.find("--file-hash=none") == std::string::npos) { EXPECT_THAT(dump.value(), ::testing::HasSubstr("(invalid)")) << dump.value(); } if (extra_args.find("--order=revpath") != std::string::npos) { EXPECT_THAT(dump.value(), ::testing::HasSubstr("similarity: none")) << dump.value(); } else { EXPECT_THAT(dump.value(), ::testing::HasSubstr("similarity: nilsimsa")) << dump.value(); } if (extra_args.find("--categorize") != std::string::npos) { EXPECT_THAT(dump.value(), ::testing::HasSubstr("[incompressible]")) << dump.value(); } } namespace { std::array const map_file_error_args{ "", "--categorize", "--order=revpath", "--order=revpath --categorize", "--file-hash=none", "--file-hash=none --categorize", "--file-hash=none --order=revpath", "--file-hash=none --order=revpath --categorize", }; } // namespace INSTANTIATE_TEST_SUITE_P(dwarfs, map_file_error_test, ::testing::ValuesIn(map_file_error_args)); TEST(block_cache, sequential_access_detector) { auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); auto paths = t.add_random_file_tree({.avg_size = 4096.0, .dimension = 10}); ASSERT_EQ(0, t.run({"-i", "/", "-o", "-", "-l1", "-S14", "--file-hash=none"})) << t.err(); auto image = t.out(); std::sort(paths.begin(), paths.end(), [](auto const& a, auto const& b) { return a.first.string() < b.first.string(); }); t.lgr = std::make_unique(logger::VERBOSE); auto test_lgr = dynamic_cast(t.lgr.get()); for (size_t thresh : {0, 1, 2, 4, 8, 16, 32}) { size_t block_count{0}; test_lgr->clear(); { auto fs = t.fs_from_data( image, {.block_cache = {.max_bytes = 256 * 1024, .sequential_access_detector_threshold = thresh}}); auto info = fs.info_as_json({.features = reader::fsinfo_features::for_level(3)}); for (auto const& s : info["sections"]) { if (s["type"] == "BLOCK") { ++block_count; } } for (auto const& [path, data] : paths) { auto pstr = path.string(); #ifdef _WIN32 std::replace(pstr.begin(), pstr.end(), '\\', '/'); #endif auto iv = fs.find(pstr.c_str()); ASSERT_TRUE(iv); ASSERT_TRUE(iv->is_regular_file()); auto st = fs.getattr(*iv); ASSERT_EQ(data.size(), st.size()); std::string buffer; buffer.resize(data.size()); auto nread = fs.read(iv->inode_num(), buffer.data(), st.size()); EXPECT_EQ(data.size(), nread); EXPECT_EQ(data, buffer); } } auto log = test_lgr->get_log(); std::optional sequential_prefetches; for (auto const& ent : log) { if (ent.output.starts_with("sequential prefetches: ")) { sequential_prefetches = std::stoul(ent.output.substr(23)); break; } } ASSERT_TRUE(sequential_prefetches); if (thresh == 0) { EXPECT_EQ(0, sequential_prefetches.value()); } else { EXPECT_EQ(sequential_prefetches.value(), block_count - thresh); } } } TEST(file_scanner, large_file_handling) { using namespace std::chrono_literals; /* We have 5 files, each 1MB in size. Files 0 and 3 are identical, as are files 1, 2 and 4. In order to reproduce the bug from github #217, we must ensure the following order of events. Note that this description is only accurate for the old, buggy code. [10ms] `f0` is discovered; the first 4K are hashed; unique_size_ is updated with (s, h0) -> f0; inode i0 is created [20ms] `f1` is discovered; the first 4K are hashed; unique_size_ is updated with (s, h1) -> f1; inode i1 is created [30ms] `f2` is discovered; the first 4K are hashed; (s, h2) == (s, h1) is found in unique_size_; latch l0 is created in slot s; a hash job is started for f1; unique_size_[(s, h2)] -> []; a hash job is started for f2 [40ms] `f3` is discovered; the first 4K are hashed; (s, h3) == (s, h0) is found in unique_size_; latch l1 is created but cannot be stored in slot s because it's occupied by l0; a hash job is started for f0; unique_size_[(s, h3)] -> []; a hash job is started for f3 [50ms] `f4` is discovered; the first 4K are hashed; (s, h4) == (s, h0) is found in unique_size_; latch l0 is found in slot s [where we would have rather expected l1]; a hash job is started for f4 [60ms] the hash job for f1 completes; latch l0 is released; f1 (i1) is added to `by_hash_`; latch l0 is removed from slot s [70ms] the hash job for f4 completes; latch l0 has already been released; the hash for f4 is not in `by_hash_`; a new inode i2 is created; f4 (i2) is added to `by_hash_` [THIS IS THE BUG] [80ms] the hash job for f0 completes; latch l1 is released; the hash for f0 is already in `by_hash_` [per f4, which shouldn't be there yet]; f0 (i0) is added to `by_hash_`; an attempt is made to remove latch l1 from slot s [but it's not there, which isn't checked] [90ms] the hash job for f2 completes; latch l0 has already been released; the hash for f2 == f1 is already in `by_hash_`; f2 (i1) is added [this is irrelevant] [100ms] the hash job for f3 completes; latch l1 has already been released; the hash for f3 == f0 is already in `by_hash_`; f3 (i0) is added [this is irrelevant] */ std::vector data(5, test::loremipsum(1 << 20)); std::vector delays{40ms, 30ms, 60ms, 60ms, 20ms}; data[1][100] ^= 0x01; data[2][100] ^= 0x01; auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); for (size_t i = 0; i < data.size(); ++i) { auto file = fmt::format("f{}", i); t.os->add_file(file, data[i]); t.os->set_map_file_delay(fs::path{"/"} / file, delays[i]); } t.os->set_map_file_delay_min_size(10'000); t.os->set_dir_reader_delay(10ms); ASSERT_EQ(0, t.run("-i / -o - -l1")) << t.err(); auto fs = t.fs_from_stdout(); for (size_t i = 0; i < data.size(); ++i) { auto iv = fs.find(fmt::format("f{}", i).c_str()); ASSERT_TRUE(iv) << i; auto st = fs.getattr(*iv); std::string buffer; buffer.resize(st.size()); auto nread = fs.read(iv->inode_num(), buffer.data(), st.size()); EXPECT_EQ(data[i].size(), nread) << i; EXPECT_EQ(data[i], buffer) << i; } } TEST(mkdwarfs_test, file_scanner_dump) { auto t = mkdwarfs_tester::create_empty(); t.add_root_dir(); t.os->add_local_files(audio_data_dir); t.os->add_local_files(fits_data_dir); t.add_random_file_tree({.avg_size = 1024.0, .dimension = 10}); t.os->setenv("DWARFS_DUMP_FILES_RAW", "raw.json"); t.os->setenv("DWARFS_DUMP_FILES_FINAL", "final.json"); ASSERT_EQ(0, t.run("-l1 -i / -o -")) << t.err(); auto raw = t.fa->get_file("raw.json"); ASSERT_TRUE(raw); EXPECT_GT(raw->size(), 100'000); EXPECT_TRUE(nlohmann::json::accept(raw.value())) << raw.value(); auto finalized = t.fa->get_file("final.json"); ASSERT_TRUE(finalized); EXPECT_GT(finalized->size(), 100'000); EXPECT_TRUE(nlohmann::json::accept(finalized.value())) << finalized.value(); EXPECT_NE(*raw, *finalized); }