// This file Copyright © 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 #include #include #include "libtransmission/transmission.h" #include "libtransmission/bitfield.h" #include "libtransmission/block-info.h" #include "libtransmission/file-piece-map.h" #include "libtransmission/torrent-metainfo.h" #include "libtransmission/tr-assert.h" tr_file_piece_map::tr_file_piece_map(tr_torrent_metainfo const& tm) { reset(tm); } tr_file_piece_map::tr_file_piece_map(tr_block_info const& block_info, uint64_t const* const file_sizes, size_t const n_files) { reset(block_info, file_sizes, n_files); } void tr_file_piece_map::reset(tr_block_info const& block_info, uint64_t const* const file_sizes, size_t const n_files) { file_bytes_.resize(n_files); file_bytes_.shrink_to_fit(); file_pieces_.resize(n_files); file_pieces_.shrink_to_fit(); auto edge_pieces = small::set{}; edge_pieces.reserve(n_files * 2U); uint64_t offset = 0U; for (tr_file_index_t i = 0U; i < n_files; ++i) { auto const file_size = file_sizes[i]; auto const begin_byte = offset; auto const begin_piece = block_info.byte_loc(begin_byte).piece; auto end_byte = tr_byte_index_t{}; auto end_piece = tr_piece_index_t{}; edge_pieces.insert(begin_piece); if (file_size != 0U) { end_byte = begin_byte + file_size; auto const final_byte = end_byte - 1U; auto const final_piece = block_info.byte_loc(final_byte).piece; end_piece = final_piece + 1U; edge_pieces.insert(final_piece); } else { end_byte = begin_byte; // TODO(ckerr): should end_piece == begin_piece, same as _bytes are? end_piece = begin_piece + 1U; } file_bytes_[i] = byte_span_t{ begin_byte, end_byte }; file_pieces_[i] = piece_span_t{ begin_piece, end_piece }; offset += file_size; } edge_pieces_.assign(std::begin(edge_pieces), std::end(edge_pieces)); } void tr_file_piece_map::reset(tr_torrent_metainfo const& tm) { auto const n = tm.file_count(); auto file_sizes = std::vector(n); for (tr_file_index_t i = 0U; i < n; ++i) { file_sizes[i] = tm.file_size(i); } reset({ tm.total_size(), tm.piece_size() }, std::data(file_sizes), std::size(file_sizes)); } namespace { template struct CompareToSpan { using span_t = tr_file_piece_map::index_span_t; [[nodiscard]] constexpr int compare(T item, span_t span) const // <=> { if (item < span.begin) { return -1; } if (item >= span.end) { return 1; } return 0; } [[nodiscard]] constexpr bool operator()(T const item, span_t const span) const // < { return compare(item, span) < 0; } [[nodiscard]] constexpr int compare(span_t const span, T const item) const // <=> { return -compare(item, span); } [[nodiscard]] constexpr bool operator()(span_t const span, T const item) const // < { return compare(span, item) < 0; } }; } // namespace tr_file_piece_map::file_span_t tr_file_piece_map::file_span_for_piece(tr_piece_index_t const piece) const { static constexpr auto Compare = CompareToSpan{}; auto const begin = std::begin(file_pieces_); auto const [equal_begin, equal_end] = std::equal_range(begin, std::end(file_pieces_), piece, Compare); return { static_cast(equal_begin - begin), static_cast(equal_end - begin) }; } tr_file_piece_map::file_offset_t tr_file_piece_map::file_offset(uint64_t const offset) const { static constexpr auto Compare = CompareToSpan{}; auto const begin = std::begin(file_bytes_); auto const it = std::lower_bound(begin, std::end(file_bytes_), offset, Compare); tr_file_index_t const file_index = std::distance(begin, it); auto const file_offset = offset - it->begin; return file_offset_t{ file_index, file_offset }; } // --- void tr_file_priorities::set(tr_file_index_t const file, tr_priority_t const new_priority) { if (std::empty(priorities_)) { if (new_priority == TR_PRI_NORMAL) { return; } priorities_.assign(fpm_->file_count(), TR_PRI_NORMAL); priorities_.shrink_to_fit(); } priorities_[file] = new_priority; } void tr_file_priorities::set(tr_file_index_t const* const files, size_t const n, tr_priority_t const new_priority) { for (size_t i = 0U; i < n; ++i) { set(files[i], new_priority); } } tr_priority_t tr_file_priorities::file_priority(tr_file_index_t const file) const { TR_ASSERT(file < fpm_->file_count()); if (std::empty(priorities_)) { return TR_PRI_NORMAL; } return priorities_[file]; } tr_priority_t tr_file_priorities::piece_priority(tr_piece_index_t const piece) const { // increase priority if a file begins or ends in this piece // because that makes life easier for code/users using at incomplete files. // Xrefs: f2daeb242, https://forum.transmissionbt.com/viewtopic.php?t=10473 if (fpm_->is_edge_piece(piece)) { return TR_PRI_HIGH; } // check the priorities of the files that touch this piece if (auto const [begin_file, end_file] = fpm_->file_span_for_piece(piece); end_file <= std::size(priorities_)) { auto const begin = std::begin(priorities_) + begin_file; auto const end = std::begin(priorities_) + end_file; if (auto const it = std::max_element(begin, end); it != end) { return *it; } } return TR_PRI_NORMAL; } // --- tr_files_wanted::tr_files_wanted(tr_file_piece_map const* const fpm) : fpm_{ fpm } , wanted_{ fpm->file_count() } { wanted_.set_has_all(); // by default we want all files } void tr_files_wanted::set(tr_file_index_t const file, bool const wanted) { wanted_.set(file, wanted); } void tr_files_wanted::set(tr_file_index_t const* const files, size_t const n_files, bool const wanted) { for (size_t idx = 0U; idx < n_files; ++idx) { set(files[idx], wanted); } } bool tr_files_wanted::piece_wanted(tr_piece_index_t const piece) const { if (wanted_.has_all()) { return true; } auto const [begin, end] = fpm_->file_span_for_piece(piece); return wanted_.count(begin, end) != 0U; }