/* * Copyright (c) 2020, Fei Wu * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include struct DuOption { enum class TimeType { NotUsed, Modification, Access, Status }; bool human_readable = false; bool all = false; bool apparent_size = false; int threshold = 0; TimeType time_type = TimeType::NotUsed; Vector excluded_patterns; }; static ErrorOr parse_args(Main::Arguments arguments, Vector& files, DuOption& du_option, int& max_depth); static ErrorOr print_space_usage(const String& path, const DuOption& du_option, int max_depth, bool inside_dir = false); ErrorOr serenity_main(Main::Arguments arguments) { Vector files; DuOption du_option; int max_depth = INT_MAX; TRY(parse_args(arguments, files, du_option, max_depth)); for (const auto& file : files) TRY(print_space_usage(file, du_option, max_depth)); return 0; } ErrorOr parse_args(Main::Arguments arguments, Vector& files, DuOption& du_option, int& max_depth) { bool summarize = false; const char* pattern = nullptr; const char* exclude_from = nullptr; Vector files_to_process; Core::ArgsParser::Option time_option { true, "Show time of type time-type of any file in the directory, or any of its subdirectories. " "Available choices: mtime, modification, ctime, status, use, atime, access", "time", 0, "time-type", [&du_option](StringView s) { if (s == "mtime"sv || s == "modification"sv) du_option.time_type = DuOption::TimeType::Modification; else if (s == "ctime"sv || s == "status"sv || s == "use"sv) du_option.time_type = DuOption::TimeType::Status; else if (s == "atime"sv || s == "access"sv) du_option.time_type = DuOption::TimeType::Access; else return false; return true; } }; Core::ArgsParser args_parser; args_parser.set_general_help("Display actual or apparent disk usage of files or directories."); args_parser.add_option(du_option.all, "Write counts for all files, not just directories", "all", 'a'); args_parser.add_option(du_option.apparent_size, "Print apparent sizes, rather than disk usage", "apparent-size", 0); args_parser.add_option(du_option.human_readable, "Print human-readable sizes", "human-readable", 'h'); args_parser.add_option(max_depth, "Print the total for a directory or file only if it is N or fewer levels below the command line argument", "max-depth", 'd', "N"); args_parser.add_option(summarize, "Display only a total for each argument", "summarize", 's'); args_parser.add_option(du_option.threshold, "Exclude entries smaller than size if positive, or entries greater than size if negative", "threshold", 't', "size"); args_parser.add_option(move(time_option)); args_parser.add_option(pattern, "Exclude files that match pattern", "exclude", 0, "pattern"); args_parser.add_option(exclude_from, "Exclude files that match any pattern in file", "exclude_from", 'X', "file"); args_parser.add_positional_argument(files_to_process, "File to process", "file", Core::ArgsParser::Required::No); args_parser.parse(arguments); if (summarize) max_depth = 0; if (pattern) du_option.excluded_patterns.append(pattern); if (exclude_from) { auto file = TRY(Core::File::open(exclude_from, Core::OpenMode::ReadOnly)); const auto buff = file->read_all(); if (!buff.is_empty()) { String patterns = String::copy(buff, Chomp); du_option.excluded_patterns.extend(patterns.split('\n')); } } for (auto const& file : files_to_process) { files.append(file); } if (files.is_empty()) { files.append("."); } return {}; } ErrorOr print_space_usage(const String& path, const DuOption& du_option, int max_depth, bool inside_dir) { struct stat path_stat = TRY(Core::System::lstat(path.characters())); off_t directory_size = 0; const bool is_directory = S_ISDIR(path_stat.st_mode); if (--max_depth >= 0 && is_directory) { auto di = Core::DirIterator(path, Core::DirIterator::SkipParentAndBaseDir); if (di.has_error()) { outln("du: cannot read directory '{}': {}", path, di.error_string()); return Error::from_string_literal("An error occurred. See previous error."sv); } while (di.has_next()) { const auto child_path = di.next_full_path(); directory_size += TRY(print_space_usage(child_path, du_option, max_depth, true)); } } const auto basename = LexicalPath::basename(path); for (const auto& pattern : du_option.excluded_patterns) { if (basename.matches(pattern, CaseSensitivity::CaseSensitive)) return { 0 }; } off_t size = path_stat.st_size; if (du_option.apparent_size) { constexpr auto block_size = 512; size = path_stat.st_blocks * block_size; } if (inside_dir && !du_option.all && !is_directory) return size; if (is_directory) size = directory_size; if ((du_option.threshold > 0 && size < du_option.threshold) || (du_option.threshold < 0 && size > -du_option.threshold)) return { 0 }; if (du_option.human_readable) { out("{}", human_readable_size(size)); } else { constexpr long long block_size = 1024; size = size / block_size + (size % block_size != 0); out("{}", size); } if (du_option.time_type == DuOption::TimeType::NotUsed) { outln("\t{}", path); } else { auto time = path_stat.st_mtime; switch (du_option.time_type) { case DuOption::TimeType::Access: time = path_stat.st_atime; break; case DuOption::TimeType::Status: time = path_stat.st_ctime; break; default: break; } const auto formatted_time = Core::DateTime::from_timestamp(time).to_string(); outln("\t{}\t{}", formatted_time, path); } return { size }; }