// This file Copyright (C) 2013-2022 Mnemosyne LLC. // It may be used under GPLv2 (SPDX: GPL-2.0), GPLv3 (SPDX: GPL-3.0), // or any future license endorsed by Mnemosyne LLC. // License text can be found in the licenses/ folder. #pragma once #include #include // getenv() #include // strlen() #include #include #include // std::once_flag() #include #include #include #include "crypto-utils.h" // tr_base64_decode() #include "error.h" #include "file.h" // tr_sys_file_*() #include "platform.h" // TR_PATH_DELIMITER #include "quark.h" #include "torrent.h" #include "trevent.h" // tr_amInEventThread() #include "utils.h" #include "variant.h" #include "gtest/gtest.h" inline std::ostream& operator<<(std::ostream& os, tr_error const& err) { os << err.message << ' ' << err.code; return os; } namespace libtransmission { namespace test { inline std::string makeString(char*&& s) { auto const ret = std::string(s != nullptr ? s : ""); tr_free(s); return ret; } inline bool waitFor(std::function const& test, int msec) { auto const deadline = std::chrono::milliseconds{ msec }; auto const begin = std::chrono::steady_clock::now(); for (;;) { if (test()) { return true; } if ((std::chrono::steady_clock::now() - begin) >= deadline) { return false; } tr_wait_msec(10); } } class Sandbox { public: Sandbox() : parent_dir_{ get_default_parent_dir() } , sandbox_dir_{ create_sandbox(parent_dir_, "transmission-test-XXXXXX") } { } ~Sandbox() { rimraf(sandbox_dir_); } std::string const& path() const { return sandbox_dir_; } protected: static std::string get_default_parent_dir() { if (auto* const path = getenv("TMPDIR"); path != nullptr) { return path; } tr_error* error = nullptr; if (auto* path = tr_sys_dir_get_current(&error); path != nullptr) { auto ret = std::string{ path }; tr_free(path); return ret; } std::cerr << "tr_sys_dir_get_current error: '" << error->message << "'" << std::endl; tr_error_free(error); return {}; } static std::string create_sandbox(std::string const& parent_dir, std::string const& tmpl) { auto path = tr_strvPath(parent_dir, tmpl); tr_sys_dir_create_temp(std::data(path)); tr_sys_path_native_separators(std::data(path)); return path; } using file_func_t = std::function; static void depthFirstWalk(char const* path, file_func_t func) { auto info = tr_sys_path_info{}; if (tr_sys_path_get_info(path, 0, &info) && (info.type == TR_SYS_PATH_IS_DIRECTORY)) { if (auto const odir = tr_sys_dir_open(path); odir != TR_BAD_SYS_DIR) { char const* name; while ((name = tr_sys_dir_read_name(odir)) != nullptr) { if (strcmp(name, ".") != 0 && strcmp(name, "..") != 0) { auto const filename = tr_strvPath(path, name); depthFirstWalk(tr_strvPath(path, name).c_str(), func); } } tr_sys_dir_close(odir); } } func(path); } static void rimraf(std::string const& path, bool verbose = false) { auto remove = [verbose](char const* filename) { if (verbose) { std::cerr << "cleanup: removing '" << filename << "'" << std::endl; } tr_sys_path_remove(filename); }; depthFirstWalk(path.c_str(), remove); } private: std::string const parent_dir_; std::string const sandbox_dir_; }; class SandboxedTest : public ::testing::Test { protected: std::string sandboxDir() const { return sandbox_.path(); } auto currentTestName() const { auto const* i = ::testing::UnitTest::GetInstance()->current_test_info(); auto child = std::string(i->test_suite_name()); child += '_'; child += i->name(); return child; } void buildParentDir(std::string_view path) const { auto const tmperr = errno; auto const dir = tr_sys_path_dirname(path); tr_error* error = nullptr; tr_sys_dir_create(dir.data(), TR_SYS_DIR_CREATE_PARENTS, 0700, &error); EXPECT_EQ(nullptr, error) << "path[" << path << "] dir[" << dir << "] " << *error; errno = tmperr; } static void blockingFileWrite(tr_sys_file_t fd, void const* data, size_t data_len) { uint64_t n_left = data_len; auto const* left = static_cast(data); while (n_left > 0) { uint64_t n = {}; tr_error* error = nullptr; if (!tr_sys_file_write(fd, left, n_left, &n, &error)) { fprintf(stderr, "Error writing file: '%s'\n", error->message); tr_error_free(error); break; } left += n; n_left -= n; } } void createTmpfileWithContents(char* tmpl, void const* payload, size_t n) const { auto const tmperr = errno; buildParentDir(tmpl); // NOLINTNEXTLINE(clang-analyzer-cplusplus.InnerPointer) auto const fd = tr_sys_file_open_temp(tmpl); blockingFileWrite(fd, payload, n); tr_sys_file_close(fd); sync(); errno = tmperr; } void createFileWithContents(std::string const& path, void const* payload, size_t n) const { auto const tmperr = errno; buildParentDir(path); auto const fd = tr_sys_file_open( path.c_str(), TR_SYS_FILE_WRITE | TR_SYS_FILE_CREATE | TR_SYS_FILE_TRUNCATE, 0600, nullptr); blockingFileWrite(fd, payload, n); tr_sys_file_close(fd); sync(); errno = tmperr; } void createFileWithContents(std::string const& path, void const* payload) const { createFileWithContents(path, payload, strlen(static_cast(payload))); } bool verbose = false; void sync() const { #ifndef _WIN32 ::sync(); #endif } private: Sandbox sandbox_; }; inline void ensureFormattersInited() { static constexpr int MEM_K = 1024; static char const constexpr* const MEM_K_STR = "KiB"; static char const constexpr* const MEM_M_STR = "MiB"; static char const constexpr* const MEM_G_STR = "GiB"; static char const constexpr* const MEM_T_STR = "TiB"; static constexpr int DISK_K = 1000; static char const constexpr* const DISK_K_STR = "kB"; static char const constexpr* const DISK_M_STR = "MB"; static char const constexpr* const DISK_G_STR = "GB"; static char const constexpr* const DISK_T_STR = "TB"; static constexpr int SPEED_K = 1000; static char const constexpr* const SPEED_K_STR = "kB/s"; static char const constexpr* const SPEED_M_STR = "MB/s"; static char const constexpr* const SPEED_G_STR = "GB/s"; static char const constexpr* const SPEED_T_STR = "TB/s"; static std::once_flag flag; std::call_once( flag, []() { tr_formatter_mem_init(MEM_K, MEM_K_STR, MEM_M_STR, MEM_G_STR, MEM_T_STR); tr_formatter_size_init(DISK_K, DISK_K_STR, DISK_M_STR, DISK_G_STR, DISK_T_STR); tr_formatter_speed_init(SPEED_K, SPEED_K_STR, SPEED_M_STR, SPEED_G_STR, SPEED_T_STR); }); } class SessionTest : public SandboxedTest { private: std::shared_ptr settings_; tr_session* sessionInit(tr_variant* settings) { ensureFormattersInited(); // download dir auto sv = std::string_view{}; auto q = TR_KEY_download_dir; auto const download_dir = tr_variantDictFindStrView(settings, q, &sv) ? tr_strvPath(sandboxDir(), sv) : tr_strvPath(sandboxDir(), "Downloads"); tr_sys_dir_create(download_dir.data(), TR_SYS_DIR_CREATE_PARENTS, 0700); tr_variantDictAddStr(settings, q, download_dir.data()); // incomplete dir q = TR_KEY_incomplete_dir; auto const incomplete_dir = tr_variantDictFindStrView(settings, q, &sv) ? tr_strvPath(sandboxDir(), sv) : tr_strvPath(sandboxDir(), "Incomplete"); tr_variantDictAddStr(settings, q, incomplete_dir.c_str()); // blocklists auto const blocklist_dir = tr_strvPath(sandboxDir(), "blocklists"); tr_sys_dir_create(blocklist_dir.data(), TR_SYS_DIR_CREATE_PARENTS, 0700); // fill in any missing settings q = TR_KEY_port_forwarding_enabled; if (tr_variantDictFind(settings, q) == nullptr) { tr_variantDictAddBool(settings, q, false); } q = TR_KEY_dht_enabled; if (tr_variantDictFind(settings, q) == nullptr) { tr_variantDictAddBool(settings, q, false); } q = TR_KEY_message_level; if (tr_variantDictFind(settings, q) == nullptr) { tr_variantDictAddInt(settings, q, verbose ? TR_LOG_DEBUG : TR_LOG_ERROR); } return tr_sessionInit(sandboxDir().data(), !verbose, settings); } void sessionClose(tr_session* session) { tr_sessionClose(session); tr_logFreeQueue(tr_logGetQueue()); } protected: enum class ZeroTorrentState { NoFiles, Partial, Complete }; tr_torrent* zeroTorrentInit(ZeroTorrentState state) const { // 1048576 files-filled-with-zeroes/1048576 // 4096 files-filled-with-zeroes/4096 // 512 files-filled-with-zeroes/512 char const* benc_base64 = "ZDg6YW5ub3VuY2UzMTpodHRwOi8vd3d3LmV4YW1wbGUuY29tL2Fubm91bmNlMTA6Y3JlYXRlZCBi" "eTI1OlRyYW5zbWlzc2lvbi8yLjYxICgxMzQwNykxMzpjcmVhdGlvbiBkYXRlaTEzNTg3MDQwNzVl" "ODplbmNvZGluZzU6VVRGLTg0OmluZm9kNTpmaWxlc2xkNjpsZW5ndGhpMTA0ODU3NmU0OnBhdGhs" "NzoxMDQ4NTc2ZWVkNjpsZW5ndGhpNDA5NmU0OnBhdGhsNDo0MDk2ZWVkNjpsZW5ndGhpNTEyZTQ6" "cGF0aGwzOjUxMmVlZTQ6bmFtZTI0OmZpbGVzLWZpbGxlZC13aXRoLXplcm9lczEyOnBpZWNlIGxl" "bmd0aGkzMjc2OGU2OnBpZWNlczY2MDpRiEMYSbRhMVL9e9umo/8KT9ZCS1GIQxhJtGExUv1726aj" "/wpP1kJLUYhDGEm0YTFS/XvbpqP/Ck/WQktRiEMYSbRhMVL9e9umo/8KT9ZCS1GIQxhJtGExUv17" "26aj/wpP1kJLUYhDGEm0YTFS/XvbpqP/Ck/WQktRiEMYSbRhMVL9e9umo/8KT9ZCS1GIQxhJtGEx" "Uv1726aj/wpP1kJLUYhDGEm0YTFS/XvbpqP/Ck/WQktRiEMYSbRhMVL9e9umo/8KT9ZCS1GIQxhJ" "tGExUv1726aj/wpP1kJLUYhDGEm0YTFS/XvbpqP/Ck/WQktRiEMYSbRhMVL9e9umo/8KT9ZCS1GI" "QxhJtGExUv1726aj/wpP1kJLUYhDGEm0YTFS/XvbpqP/Ck/WQktRiEMYSbRhMVL9e9umo/8KT9ZC" "S1GIQxhJtGExUv1726aj/wpP1kJLUYhDGEm0YTFS/XvbpqP/Ck/WQktRiEMYSbRhMVL9e9umo/8K" "T9ZCS1GIQxhJtGExUv1726aj/wpP1kJLUYhDGEm0YTFS/XvbpqP/Ck/WQktRiEMYSbRhMVL9e9um" "o/8KT9ZCS1GIQxhJtGExUv1726aj/wpP1kJLUYhDGEm0YTFS/XvbpqP/Ck/WQktRiEMYSbRhMVL9" "e9umo/8KT9ZCS1GIQxhJtGExUv1726aj/wpP1kJLUYhDGEm0YTFS/XvbpqP/Ck/WQktRiEMYSbRh" "MVL9e9umo/8KT9ZCS1GIQxhJtGExUv1726aj/wpP1kJLUYhDGEm0YTFS/XvbpqP/Ck/WQktRiEMY" "SbRhMVL9e9umo/8KT9ZCS1GIQxhJtGExUv1726aj/wpP1kJLOlf5A+Tz30nMBVuNM2hpV3wg/103" "OnByaXZhdGVpMGVlZQ=="; // create the torrent ctor auto const benc = tr_base64_decode(benc_base64); EXPECT_LT(0U, std::size(benc)); auto* ctor = tr_ctorNew(session_); tr_error* error = nullptr; EXPECT_TRUE(tr_ctorSetMetainfo(ctor, std::data(benc), std::size(benc), &error)); EXPECT_EQ(nullptr, error) << *error; tr_ctorSetPaused(ctor, TR_FORCE, true); // maybe create the files if (state != ZeroTorrentState::NoFiles) { auto const* const metainfo = tr_ctorGetMetainfo(ctor); for (tr_file_index_t i = 0, n = metainfo->fileCount(); i < n; ++i) { auto const base = state == ZeroTorrentState::Partial && tr_sessionIsIncompleteDirEnabled(session_) ? tr_sessionGetIncompleteDir(session_) : tr_sessionGetDownloadDir(session_); auto const& subpath = metainfo->fileSubpath(i); auto const partial = state == ZeroTorrentState::Partial && i == 0; auto const suffix = std::string_view{ partial ? ".part" : "" }; auto const filename = tr_pathbuf{ base, '/', subpath, suffix }; auto const dirname = tr_sys_path_dirname(filename); tr_sys_dir_create(dirname.c_str(), TR_SYS_DIR_CREATE_PARENTS, 0700); auto fd = tr_sys_file_open(filename, TR_SYS_FILE_WRITE | TR_SYS_FILE_CREATE | TR_SYS_FILE_TRUNCATE, 0600); auto const file_size = metainfo->fileSize(i); for (uint64_t j = 0; j < file_size; ++j) { auto const ch = partial && j < metainfo->pieceSize() ? '\1' : '\0'; tr_sys_file_write(fd, &ch, 1, nullptr); } tr_sys_file_flush(fd); tr_sys_file_close(fd); } } // create the torrent auto* const tor = tr_torrentNew(ctor, nullptr); EXPECT_NE(nullptr, tor); waitForVerify(tor); // cleanup tr_ctorFree(ctor); return tor; } void waitForVerify(tr_torrent* tor) const { EXPECT_NE(nullptr, tor->session); tr_wait_msec(100); EXPECT_TRUE(waitFor( [tor]() { auto const activity = tr_torrentGetActivity(tor); return activity != TR_STATUS_CHECK && activity != TR_STATUS_CHECK_WAIT && tor->checked_pieces_.hasAll(); }, 4000)); } void blockingTorrentVerify(tr_torrent* tor) const { EXPECT_NE(nullptr, tor->session); EXPECT_FALSE(tr_amInEventThread(tor->session)); tr_torrentVerify(tor); waitForVerify(tor); } tr_session* session_ = nullptr; tr_variant* settings() { if (!settings_) { auto* settings = new tr_variant{}; tr_variantInitDict(settings, 10); auto constexpr deleter = [](tr_variant* v) { tr_variantFree(v); delete v; }; settings_.reset(settings, deleter); } return settings_.get(); } virtual void SetUp() override { SandboxedTest::SetUp(); session_ = sessionInit(settings()); } virtual void TearDown() override { sessionClose(session_); session_ = nullptr; settings_.reset(); SandboxedTest::TearDown(); } }; } // namespace test } // namespace libtransmission