// This file Copyright © 2010-2022 Mnemosyne LLC. // It may be used under GPLv2 (SPDX: GPL-2.0-only), GPLv3 (SPDX: GPL-3.0-only), // or any future license endorsed by Mnemosyne LLC. // License text can be found in the licenses/ folder. #include #include #include #include /* strcmp, strlen */ #include #include #include #include #include /* evutil_ascii_strcasecmp() */ #include #include "transmission.h" #include "crypto-utils.h" #include "error.h" #include "file-info.h" #include "file.h" #include "log.h" #include "makemeta.h" #include "session.h" #include "tr-assert.h" #include "utils.h" /* buildpath */ #include "variant.h" #include "version.h" #include "web-utils.h" using namespace std::literals; /**** ***** ****/ struct FileList { uint64_t size; char* filename; struct FileList* next; }; static struct FileList* getFiles(char const* dir, char const* base, struct FileList* list) { if (dir == nullptr || base == nullptr) { return nullptr; } auto buf = tr_strvPath(dir, base); tr_sys_path_native_separators(std::data(buf)); tr_sys_path_info info; if (tr_error* error = nullptr; !tr_sys_path_get_info(buf.c_str(), 0, &info, &error)) { tr_logAddWarn(fmt::format( _("Skipping '{path}': {error} ({error_code})"), fmt::arg("path", buf), fmt::arg("error", error->message), fmt::arg("error_code", error->code))); tr_error_free(error); return list; } if (tr_sys_dir_t odir = info.type == TR_SYS_PATH_IS_DIRECTORY ? tr_sys_dir_open(buf.c_str(), nullptr) : TR_BAD_SYS_DIR; odir != TR_BAD_SYS_DIR) { char const* name = nullptr; while ((name = tr_sys_dir_read_name(odir, nullptr)) != nullptr) { if (name[0] != '.') /* skip dotfiles */ { list = getFiles(buf.c_str(), name, list); } } tr_sys_dir_close(odir, nullptr); } else if (info.type == TR_SYS_PATH_IS_FILE) { auto* const node = tr_new0(FileList, 1); node->size = info.size; node->filename = tr_strvDup(buf); node->next = list; list = node; } return list; } static uint32_t bestPieceSize(uint64_t totalSize) { uint32_t const KiB = 1024; uint32_t const MiB = 1048576; uint32_t const GiB = 1073741824; if (totalSize >= 2 * GiB) { return 2 * MiB; } if (totalSize >= 1 * GiB) { return 1 * MiB; } if (totalSize >= 512 * MiB) { return 512 * KiB; } if (totalSize >= 350 * MiB) { return 256 * KiB; } if (totalSize >= 150 * MiB) { return 128 * KiB; } if (totalSize >= 50 * MiB) { return 64 * KiB; } return 32 * KiB; /* less than 50 meg */ } tr_metainfo_builder* tr_metaInfoBuilderCreate(char const* topFileArg) { char* const real_top = tr_sys_path_resolve(topFileArg, nullptr); if (real_top == nullptr) { /* TODO: Better error reporting */ return nullptr; } auto* const ret = tr_new0(tr_metainfo_builder, 1); ret->top = real_top; { tr_sys_path_info info; ret->isFolder = tr_sys_path_get_info(ret->top, 0, &info, nullptr) && info.type == TR_SYS_PATH_IS_DIRECTORY; } /* build a list of files containing top file and, if it's a directory, all of its children */ FileList* files = nullptr; { char* dir = tr_sys_path_dirname(ret->top, nullptr); char* base = tr_sys_path_basename(ret->top, nullptr); files = getFiles(dir, base, nullptr); tr_free(base); tr_free(dir); } for (auto* walk = files; walk != nullptr; walk = walk->next) { ++ret->fileCount; } ret->files = tr_new0(tr_metainfo_builder_file, ret->fileCount); int i = 0; auto const offset = strlen(ret->top); while (files != nullptr) { struct FileList* const tmp = files; files = files->next; auto* const file = &ret->files[i++]; file->filename = tmp->filename; file->size = tmp->size; file->is_portable = tr_file_info::isPortable(file->filename + offset); ret->totalSize += tmp->size; tr_free(tmp); } std::sort( ret->files, ret->files + ret->fileCount, [](auto const& a, auto const& b) { return evutil_ascii_strcasecmp(a.filename, b.filename) < 0; }); tr_metaInfoBuilderSetPieceSize(ret, bestPieceSize(ret->totalSize)); return ret; } static bool isValidPieceSize(uint32_t n) { bool const isPowerOfTwo = n != 0 && (n & (n - 1)) == 0; return isPowerOfTwo; } bool tr_metaInfoBuilderSetPieceSize(tr_metainfo_builder* b, uint32_t bytes) { if (!isValidPieceSize(bytes)) { tr_logAddWarn(fmt::format( _("Couldn't use invalid piece size {expected_size}; using {actual_size} instead"), fmt::arg("expected_size", tr_formatter_mem_B(bytes)), fmt::arg("actual_size", tr_formatter_mem_B(b->pieceSize)))); return false; } b->pieceSize = bytes; b->pieceCount = (int)(b->totalSize / b->pieceSize); if (b->totalSize % b->pieceSize != 0) { ++b->pieceCount; } return true; } void tr_metaInfoBuilderFree(tr_metainfo_builder* builder) { if (builder != nullptr) { for (uint32_t i = 0; i < builder->fileCount; ++i) { tr_free(builder->files[i].filename); } tr_free(builder->files); tr_free(builder->top); tr_free(builder->comment); tr_free(builder->source); for (int i = 0; i < builder->trackerCount; ++i) { tr_free(builder->trackers[i].announce); } for (int i = 0; i < builder->webseedCount; ++i) { tr_free(builder->webseeds[i]); } tr_free(builder->trackers); tr_free(builder->webseeds); tr_free(builder->outputFile); tr_free(builder); } } /**** ***** ****/ static std::vector getHashInfo(tr_metainfo_builder* b) { auto ret = std::vector(std::size(tr_sha1_digest_t{}) * b->pieceCount); if (b->totalSize == 0) { return {}; } b->pieceIndex = 0; uint64_t totalRemain = b->totalSize; uint32_t fileIndex = 0; auto* walk = std::data(ret); auto buf = std::vector(b->pieceSize); uint64_t off = 0; tr_error* error = nullptr; tr_sys_file_t fd = tr_sys_file_open(b->files[fileIndex].filename, TR_SYS_FILE_READ | TR_SYS_FILE_SEQUENTIAL, 0, &error); if (fd == TR_BAD_SYS_FILE) { b->my_errno = error->code; tr_strlcpy(b->errfile, b->files[fileIndex].filename, sizeof(b->errfile)); b->result = TrMakemetaResult::ERR_IO_READ; tr_error_free(error); return {}; } while (totalRemain != 0) { TR_ASSERT(b->pieceIndex < b->pieceCount); uint32_t const this_piece_size = std::min(uint64_t{ b->pieceSize }, totalRemain); buf.resize(this_piece_size); auto* bufptr = std::data(buf); uint64_t leftInPiece = this_piece_size; while (leftInPiece != 0) { uint64_t const n_this_pass = std::min(b->files[fileIndex].size - off, leftInPiece); uint64_t n_read = 0; (void)tr_sys_file_read(fd, bufptr, n_this_pass, &n_read, nullptr); bufptr += n_read; off += n_read; leftInPiece -= n_read; if (off == b->files[fileIndex].size) { off = 0; tr_sys_file_close(fd, nullptr); fd = TR_BAD_SYS_FILE; if (++fileIndex < b->fileCount) { fd = tr_sys_file_open(b->files[fileIndex].filename, TR_SYS_FILE_READ | TR_SYS_FILE_SEQUENTIAL, 0, &error); if (fd == TR_BAD_SYS_FILE) { b->my_errno = error->code; tr_strlcpy(b->errfile, b->files[fileIndex].filename, sizeof(b->errfile)); b->result = TrMakemetaResult::ERR_IO_READ; tr_error_free(error); return {}; } } } } TR_ASSERT(bufptr - std::data(buf) == (int)this_piece_size); TR_ASSERT(leftInPiece == 0); auto const digest = tr_sha1(buf); if (!digest) { b->my_errno = EIO; tr_snprintf(b->errfile, sizeof(b->errfile), "error hashing piece %" PRIu32, b->pieceIndex); b->result = TrMakemetaResult::ERR_IO_READ; break; } walk = std::copy(std::begin(*digest), std::end(*digest), walk); if (b->abortFlag) { b->result = TrMakemetaResult::CANCELLED; break; } totalRemain -= this_piece_size; ++b->pieceIndex; } TR_ASSERT(b->abortFlag || size_t(walk - std::data(ret)) == std::size(ret)); TR_ASSERT(b->abortFlag || !totalRemain); if (fd != TR_BAD_SYS_FILE) { tr_sys_file_close(fd, nullptr); } return ret; } static void getFileInfo( char const* topFile, tr_metainfo_builder_file const* file, tr_variant* uninitialized_length, tr_variant* uninitialized_path) { /* get the file size */ tr_variantInitInt(uninitialized_length, file->size); /* how much of file->filename to walk past */ size_t offset = strlen(topFile); if (offset > 0 && topFile[offset - 1] != TR_PATH_DELIMITER) { ++offset; /* +1 for the path delimiter */ } /* build the path list */ tr_variantInitList(uninitialized_path, 0); auto filename = std::string_view{ file->filename }; if (std::size(filename) > offset) { filename.remove_prefix(offset); auto token = std::string_view{}; while (tr_strvSep(&filename, &token, TR_PATH_DELIMITER)) { tr_variantListAddStr(uninitialized_path, token); } } } static void makeInfoDict(tr_variant* dict, tr_metainfo_builder* builder) { tr_variantDictReserve(dict, 5); if (builder->isFolder) /* root node is a directory */ { tr_variant* list = tr_variantDictAddList(dict, TR_KEY_files, builder->fileCount); for (uint32_t i = 0; i < builder->fileCount; ++i) { tr_variant* d = tr_variantListAddDict(list, 2); tr_variant* length = tr_variantDictAdd(d, TR_KEY_length); tr_variant* pathVal = tr_variantDictAdd(d, TR_KEY_path); getFileInfo(builder->top, &builder->files[i], length, pathVal); } } else { tr_variantDictAddInt(dict, TR_KEY_length, builder->files[0].size); } if (auto* const base = tr_sys_path_basename(builder->top, nullptr); base != nullptr) { tr_variantDictAddStr(dict, TR_KEY_name, base); tr_free(base); } tr_variantDictAddInt(dict, TR_KEY_piece_length, builder->pieceSize); if (auto const piece_hashes = getHashInfo(builder); !std::empty(piece_hashes)) { tr_variantDictAddRaw(dict, TR_KEY_pieces, std::data(piece_hashes), std::size(piece_hashes)); } if (builder->isPrivate) { tr_variantDictAddInt(dict, TR_KEY_private, 1); } if (builder->source != nullptr) { tr_variantDictAddStr(dict, TR_KEY_source, builder->source); } } static void tr_realMakeMetaInfo(tr_metainfo_builder* builder) { tr_variant top; for (int i = 0; i < builder->trackerCount && builder->result == TrMakemetaResult::OK; ++i) { if (!tr_urlIsValidTracker(builder->trackers[i].announce)) { tr_strlcpy(builder->errfile, builder->trackers[i].announce, sizeof(builder->errfile)); builder->result = TrMakemetaResult::ERR_URL; } } for (int i = 0; i < builder->webseedCount && builder->result == TrMakemetaResult::OK; ++i) { if (!tr_urlIsValid(builder->webseeds[i])) { tr_strlcpy(builder->errfile, builder->webseeds[i], sizeof(builder->errfile)); builder->result = TrMakemetaResult::ERR_URL; } } tr_variantInitDict(&top, 6); if (builder->fileCount == 0 || builder->totalSize == 0 || builder->pieceSize == 0 || builder->pieceCount == 0) { builder->errfile[0] = '\0'; builder->my_errno = ENOENT; builder->result = TrMakemetaResult::ERR_IO_READ; builder->isDone = true; } if (builder->result == TrMakemetaResult::OK && builder->trackerCount != 0) { int prevTier = -1; tr_variant* tier = nullptr; if (builder->trackerCount > 1) { tr_variant* annList = tr_variantDictAddList(&top, TR_KEY_announce_list, 0); for (int i = 0; i < builder->trackerCount; ++i) { if (prevTier != builder->trackers[i].tier) { prevTier = builder->trackers[i].tier; tier = tr_variantListAddList(annList, 0); } tr_variantListAddStr(tier, builder->trackers[i].announce); } } tr_variantDictAddStr(&top, TR_KEY_announce, builder->trackers[0].announce); } if (builder->result == TrMakemetaResult::OK && builder->webseedCount > 0) { tr_variant* url_list = tr_variantDictAddList(&top, TR_KEY_url_list, builder->webseedCount); for (int i = 0; i < builder->webseedCount; ++i) { tr_variantListAddStr(url_list, builder->webseeds[i]); } } if (builder->result == TrMakemetaResult::OK && !builder->abortFlag) { if (!tr_str_is_empty(builder->comment)) { tr_variantDictAddStr(&top, TR_KEY_comment, builder->comment); } tr_variantDictAddStrView(&top, TR_KEY_created_by, TR_NAME "/" LONG_VERSION_STRING); tr_variantDictAddInt(&top, TR_KEY_creation_date, time(nullptr)); tr_variantDictAddStrView(&top, TR_KEY_encoding, "UTF-8"); makeInfoDict(tr_variantDictAddDict(&top, TR_KEY_info, 666), builder); } /* save the file */ if ((builder->result == TrMakemetaResult::OK) && (!builder->abortFlag) && (tr_variantToFile(&top, TR_VARIANT_FMT_BENC, builder->outputFile) != 0)) { builder->my_errno = errno; tr_strlcpy(builder->errfile, builder->outputFile, sizeof(builder->errfile)); builder->result = TrMakemetaResult::ERR_IO_WRITE; } /* cleanup */ tr_variantFree(&top); if (builder->abortFlag) { builder->result = TrMakemetaResult::CANCELLED; } builder->isDone = true; } /*** **** **** A threaded builder queue **** ***/ static tr_metainfo_builder* queue = nullptr; static std::optional worker_thread_id; static std::recursive_mutex queue_mutex_; static void makeMetaWorkerFunc() { for (;;) { tr_metainfo_builder* builder = nullptr; /* find the next builder to process */ queue_mutex_.lock(); if (queue != nullptr) { builder = queue; queue = queue->nextBuilder; } queue_mutex_.unlock(); /* if no builders, this worker thread is done */ if (builder == nullptr) { break; } tr_realMakeMetaInfo(builder); } worker_thread_id.reset(); } void tr_makeMetaInfo( tr_metainfo_builder* builder, char const* outputFile, tr_tracker_info const* trackers, int trackerCount, char const** webseeds, int webseedCount, char const* comment, bool isPrivate, char const* source) { /* free any variables from a previous run */ for (int i = 0; i < builder->trackerCount; ++i) { tr_free(builder->trackers[i].announce); } tr_free(builder->trackers); tr_free(builder->comment); tr_free(builder->source); tr_free(builder->outputFile); /* initialize the builder variables */ builder->abortFlag = false; builder->result = TrMakemetaResult::OK; builder->isDone = false; builder->pieceIndex = 0; builder->trackerCount = trackerCount; builder->trackers = tr_new0(tr_tracker_info, builder->trackerCount); for (int i = 0; i < builder->trackerCount; ++i) { builder->trackers[i].tier = trackers[i].tier; builder->trackers[i].announce = tr_strdup(trackers[i].announce); } builder->webseedCount = webseedCount; builder->webseeds = tr_new0(char*, webseedCount); for (int i = 0; i < webseedCount; ++i) { builder->webseeds[i] = tr_strdup(webseeds[i]); } builder->comment = tr_strdup(comment); builder->isPrivate = isPrivate; builder->source = tr_strdup(source); if (!tr_str_is_empty(outputFile)) { builder->outputFile = tr_strdup(outputFile); } else { builder->outputFile = tr_strvDup(tr_strvJoin(builder->top, ".torrent"sv)); } /* enqueue the builder */ auto const lock = std::lock_guard(queue_mutex_); builder->nextBuilder = queue; queue = builder; if (!worker_thread_id) { auto thread = std::thread(makeMetaWorkerFunc); worker_thread_id = thread.get_id(); thread.detach(); } }