/* * Copyright (c) 2020, Andrés Vieira * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include static bool unpack_zip_member(Archive::ZipMember zip_member) { if (zip_member.is_directory) { if (mkdir(zip_member.name.characters(), 0755) < 0) { perror("mkdir"); return false; } outln(" extracting: {}", zip_member.name); return true; } auto new_file = Core::File::construct(zip_member.name); if (!new_file->open(Core::OpenMode::WriteOnly)) { warnln("Can't write file {}: {}", zip_member.name, new_file->error_string()); return false; } outln(" extracting: {}", zip_member.name); // TODO: verify CRC32s match! switch (zip_member.compression_method) { case Archive::ZipCompressionMethod::Store: { if (!new_file->write(zip_member.compressed_data.data(), zip_member.compressed_data.size())) { warnln("Can't write file contents in {}: {}", zip_member.name, new_file->error_string()); return false; } break; } case Archive::ZipCompressionMethod::Deflate: { auto decompressed_data = Compress::DeflateDecompressor::decompress_all(zip_member.compressed_data); if (!decompressed_data.has_value()) { warnln("Failed decompressing file {}", zip_member.name); return false; } if (decompressed_data.value().size() != zip_member.uncompressed_size) { warnln("Failed decompressing file {}", zip_member.name); return false; } if (!new_file->write(decompressed_data.value().data(), decompressed_data.value().size())) { warnln("Can't write file contents in {}: {}", zip_member.name, new_file->error_string()); return false; } break; } default: VERIFY_NOT_REACHED(); } if (!new_file->close()) { warnln("Can't close file {}: {}", zip_member.name, new_file->error_string()); return false; } return true; } int main(int argc, char** argv) { const char* path; int map_size_limit = 32 * MiB; String output_directory_path; Core::ArgsParser args_parser; args_parser.add_option(map_size_limit, "Maximum chunk size to map", "map-size-limit", 0, "size"); args_parser.add_option(output_directory_path, "Directory to receive the archive content", "output-directory", 'o', "path"); args_parser.add_positional_argument(path, "File to unzip", "path", Core::ArgsParser::Required::Yes); args_parser.parse(argc, argv); String zip_file_path { path }; struct stat st; int rc = stat(zip_file_path.characters(), &st); if (rc < 0) { perror("stat"); return 1; } // FIXME: Map file chunk-by-chunk once we have mmap() with offset. // This will require mapping some parts then unmapping them repeatedly, // but it would be significantly faster and less syscall heavy than seek()/read() at every read. if (st.st_size >= map_size_limit) { warnln("unzip warning: Refusing to map file since it is larger than {}, pass '--map-size-limit {}' to get around this", human_readable_size(map_size_limit).characters(), round_up_to_power_of_two(st.st_size, 16)); return 1; } auto file_or_error = MappedFile::map(zip_file_path); if (file_or_error.is_error()) { warnln("Failed to open {}: {}", zip_file_path, file_or_error.error()); return 1; } auto& mapped_file = *file_or_error.value(); warnln("Archive: {}", zip_file_path); auto zip_file = Archive::Zip::try_create(mapped_file.bytes()); if (!zip_file.has_value()) { warnln("Invalid zip file {}", zip_file_path); return 1; } if (!output_directory_path.is_null()) { rc = mkdir(output_directory_path.characters(), 0755); if (rc < 0 && errno != EEXIST) { perror("mkdir"); return 1; } rc = chdir(output_directory_path.characters()); if (rc < 0) { perror("chdir"); return 1; } } auto success = zip_file->for_each_member([&](auto zip_member) { return unpack_zip_member(zip_member) ? IterationDecision::Continue : IterationDecision::Break; }); return success ? 0 : 1; }