/* * This file Copyright (C) 2012-2014 Mnemosyne LLC * * It may be used under the GNU GPL versions 2 or 3 * or any future license endorsed by Mnemosyne LLC. * */ #include /* INT_MAX */ #include /* memcpy(), memset(), memcmp() */ #include #include "transmission.h" #include "crypto-utils.h" /* tr_sha1() */ #include "file.h" #include "log.h" #include "magnet.h" #include "metainfo.h" #include "resume.h" #include "torrent.h" #include "torrent-magnet.h" #include "tr-assert.h" #include "utils.h" #include "variant.h" #include "web.h" #define dbgmsg(tor, ...) tr_logAddDeepNamed(tr_torrentName(tor), __VA_ARGS__) /*** **** ***/ /* don't ask for the same metadata piece more than this often */ static auto constexpr MinRepeatIntervalSecs = int{ 3 }; struct metadata_node { time_t requestedAt; int piece; }; struct tr_incomplete_metadata { uint8_t* metadata; int metadata_size; int pieceCount; /** sorted from least to most recently requested */ struct metadata_node* piecesNeeded; int piecesNeededCount; }; static void incompleteMetadataFree(struct tr_incomplete_metadata* m) { tr_free(m->metadata); tr_free(m->piecesNeeded); tr_free(m); } bool tr_torrentSetMetadataSizeHint(tr_torrent* tor, int64_t size) { if (tr_torrentHasMetadata(tor)) { return false; } if (tor->incompleteMetadata != nullptr) { return false; } int const n = (size <= 0 || size > INT_MAX) ? -1 : size / METADATA_PIECE_SIZE + (size % METADATA_PIECE_SIZE != 0 ? 1 : 0); dbgmsg(tor, "metadata is %" PRId64 " bytes in %d pieces", size, n); if (n <= 0) { return false; } struct tr_incomplete_metadata* m = tr_new(struct tr_incomplete_metadata, 1); if (m == nullptr) { return false; } m->pieceCount = n; m->metadata = tr_new(uint8_t, size); m->metadata_size = size; m->piecesNeededCount = n; m->piecesNeeded = tr_new(struct metadata_node, n); if (m->metadata == nullptr || m->piecesNeeded == nullptr) { incompleteMetadataFree(m); return false; } for (int i = 0; i < n; ++i) { m->piecesNeeded[i].piece = i; m->piecesNeeded[i].requestedAt = 0; } tor->incompleteMetadata = m; return true; } static size_t findInfoDictOffset(tr_torrent const* tor) { size_t offset = 0; /* load the file, and find the info dict's offset inside the file */ auto fileLen = size_t{}; uint8_t* const fileContents = tr_loadFile(tor->info.torrent, &fileLen, nullptr); if (fileContents != nullptr) { auto top = tr_variant{}; if (tr_variantFromBenc(&top, fileContents, fileLen) == 0) { tr_variant* infoDict = nullptr; if (tr_variantDictFindDict(&top, TR_KEY_info, &infoDict)) { auto infoLen = size_t{}; char* infoContents = tr_variantToStr(infoDict, TR_VARIANT_FMT_BENC, &infoLen); uint8_t const* i = (uint8_t const*)tr_memmem((char*)fileContents, fileLen, infoContents, infoLen); offset = i != nullptr ? i - fileContents : 0; tr_free(infoContents); } tr_variantFree(&top); } tr_free(fileContents); } return offset; } static void ensureInfoDictOffsetIsCached(tr_torrent* tor) { TR_ASSERT(tr_torrentHasMetadata(tor)); if (!tor->infoDictOffsetIsCached) { tor->infoDictOffset = findInfoDictOffset(tor); tor->infoDictOffsetIsCached = true; } } void* tr_torrentGetMetadataPiece(tr_torrent* tor, int piece, size_t* len) { TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(piece >= 0); TR_ASSERT(len != nullptr); char* ret = nullptr; if (tr_torrentHasMetadata(tor)) { ensureInfoDictOffsetIsCached(tor); TR_ASSERT(tor->infoDictLength > 0); auto const fd = tr_sys_file_open(tor->info.torrent, TR_SYS_FILE_READ, 0, nullptr); if (fd != TR_BAD_SYS_FILE) { size_t const o = piece * METADATA_PIECE_SIZE; if (tr_sys_file_seek(fd, tor->infoDictOffset + o, TR_SEEK_SET, nullptr, nullptr)) { size_t const l = o + METADATA_PIECE_SIZE <= tor->infoDictLength ? METADATA_PIECE_SIZE : tor->infoDictLength - o; if (0 < l && l <= METADATA_PIECE_SIZE) { char* buf = tr_new(char, l); auto n = uint64_t{}; if (tr_sys_file_read(fd, buf, l, &n, nullptr) && n == l) { *len = l; ret = buf; buf = nullptr; } tr_free(buf); } } tr_sys_file_close(fd, nullptr); } } TR_ASSERT(ret == nullptr || *len > 0); return ret; } static int getPieceNeededIndex(struct tr_incomplete_metadata const* m, int piece) { for (int i = 0; i < m->piecesNeededCount; ++i) { if (m->piecesNeeded[i].piece == piece) { return i; } } return -1; } static int getPieceLength(struct tr_incomplete_metadata const* m, int piece) { return piece + 1 == m->pieceCount ? // last piece m->metadata_size - (piece * METADATA_PIECE_SIZE) : METADATA_PIECE_SIZE; } void tr_torrentSetMetadataPiece(tr_torrent* tor, int piece, void const* data, int len) { TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(data != nullptr); TR_ASSERT(len >= 0); dbgmsg(tor, "got metadata piece %d of %d bytes", piece, len); // are we set up to download metadata? struct tr_incomplete_metadata* const m = tor->incompleteMetadata; if (m == nullptr) { return; } // sanity test: is `piece` in range? if ((piece < 0) || (piece >= m->pieceCount)) { return; } // sanity test: is `len` the right size? if (getPieceLength(m, piece) != len) { return; } // do we need this piece? int const idx = getPieceNeededIndex(m, piece); if (idx == -1) { return; } size_t const offset = piece * METADATA_PIECE_SIZE; memcpy(m->metadata + offset, data, len); tr_removeElementFromArray(m->piecesNeeded, idx, sizeof(struct metadata_node), m->piecesNeededCount); --m->piecesNeededCount; dbgmsg(tor, "saving metainfo piece %d... %d remain", piece, m->piecesNeededCount); /* are we done? */ if (m->piecesNeededCount == 0) { bool success = false; bool metainfoParsed = false; uint8_t sha1[SHA_DIGEST_LENGTH]; /* we've got a complete set of metainfo... see if it passes the checksum test */ dbgmsg(tor, "metainfo piece %d was the last one", piece); tr_sha1(sha1, m->metadata, m->metadata_size, nullptr); bool const checksumPassed = memcmp(sha1, tor->info.hash, SHA_DIGEST_LENGTH) == 0; if (checksumPassed) { /* checksum passed; now try to parse it as benc */ tr_variant infoDict; int const err = tr_variantFromBenc(&infoDict, m->metadata, m->metadata_size); dbgmsg(tor, "err is %d", err); metainfoParsed = err == 0; if (metainfoParsed) { /* yay we have bencoded metainfo... merge it into our .torrent file */ tr_variant newMetainfo; char* path = tr_strdup(tor->info.torrent); if (tr_variantFromFile(&newMetainfo, TR_VARIANT_FMT_BENC, path, nullptr)) { /* remove any old .torrent and .resume files */ tr_sys_path_remove(path, nullptr); tr_torrentRemoveResume(tor); dbgmsg(tor, "Saving completed metadata to \"%s\"", path); tr_variantMergeDicts(tr_variantDictAddDict(&newMetainfo, TR_KEY_info, 0), &infoDict); auto hasInfo = bool{}; auto info = tr_info{}; auto infoDictLength = size_t{}; success = tr_metainfoParse(tor->session, &newMetainfo, &info, &hasInfo, &infoDictLength); if (success && tr_getBlockSize(info.pieceSize) == 0) { tr_torrentSetLocalError(tor, "%s", _("Magnet torrent's metadata is not usable")); tr_metainfoFree(&info); success = false; } if (success) { /* keep the new info */ tor->info = info; tor->infoDictLength = infoDictLength; /* save the new .torrent file */ tr_variantToFile(&newMetainfo, TR_VARIANT_FMT_BENC, tor->info.torrent); tr_torrentGotNewInfoDict(tor); tr_torrentSetDirty(tor); } tr_variantFree(&newMetainfo); } tr_variantFree(&infoDict); tr_free(path); } } if (success) { incompleteMetadataFree(tor->incompleteMetadata); tor->incompleteMetadata = nullptr; tor->isStopping = true; tor->magnetVerify = true; tor->startAfterVerify = !tor->prefetchMagnetMetadata; tr_torrentMarkEdited(tor); } else /* drat. */ { int const n = m->pieceCount; for (int i = 0; i < n; ++i) { m->piecesNeeded[i].piece = i; m->piecesNeeded[i].requestedAt = 0; } m->piecesNeededCount = n; dbgmsg(tor, "metadata error; trying again. %d pieces left", n); tr_logAddError("magnet status: checksum passed %d, metainfo parsed %d", (int)checksumPassed, (int)metainfoParsed); } } } bool tr_torrentGetNextMetadataRequest(tr_torrent* tor, time_t now, int* setme_piece) { TR_ASSERT(tr_isTorrent(tor)); bool have_request = false; struct tr_incomplete_metadata* m = tor->incompleteMetadata; if (m != nullptr && m->piecesNeededCount > 0 && m->piecesNeeded[0].requestedAt + MinRepeatIntervalSecs < now) { int const piece = m->piecesNeeded[0].piece; tr_removeElementFromArray(m->piecesNeeded, 0, sizeof(struct metadata_node), m->piecesNeededCount); int i = m->piecesNeededCount - 1; m->piecesNeeded[i].piece = piece; m->piecesNeeded[i].requestedAt = now; dbgmsg(tor, "next piece to request: %d", piece); *setme_piece = piece; have_request = true; } return have_request; } double tr_torrentGetMetadataPercent(tr_torrent const* tor) { if (tr_torrentHasMetadata(tor)) { return 1.0; } auto const* const m = tor->incompleteMetadata; return m == nullptr || m->pieceCount == 0 ? 0.0 : (m->pieceCount - m->piecesNeededCount) / (double)m->pieceCount; } /* TODO: this should be renamed tr_metainfoGetMagnetLink() and moved to metainfo.c for consistency */ char* tr_torrentInfoGetMagnetLink(tr_info const* inf) { evbuffer* const s = evbuffer_new(); evbuffer_add_printf(s, "magnet:?xt=urn:btih:%s", inf->hashString); char const* const name = inf->name; if (!tr_str_is_empty(name)) { evbuffer_add_printf(s, "%s", "&dn="); tr_http_escape(s, name, true); } for (unsigned int i = 0; i < inf->trackerCount; ++i) { evbuffer_add_printf(s, "%s", "&tr="); tr_http_escape(s, inf->trackers[i].announce, true); } for (unsigned int i = 0; i < inf->webseedCount; i++) { evbuffer_add_printf(s, "%s", "&ws="); tr_http_escape(s, inf->webseeds[i], true); } return evbuffer_free_to_str(s, nullptr); }