/* * Copyright (c) 2018-2020, Andreas Kling * Copyright (c) 2021, Jakob-Niklas See * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include namespace Core { NonnullRefPtr ConfigFile::open_for_lib(String const& lib_name, AllowWriting allow_altering) { String directory = StandardPaths::config_directory(); auto path = String::formatted("{}/lib/{}.ini", directory, lib_name); return adopt_ref(*new ConfigFile(path, allow_altering)); } NonnullRefPtr ConfigFile::open_for_app(String const& app_name, AllowWriting allow_altering) { String directory = StandardPaths::config_directory(); auto path = String::formatted("{}/{}.ini", directory, app_name); return adopt_ref(*new ConfigFile(path, allow_altering)); } NonnullRefPtr ConfigFile::open_for_system(String const& app_name, AllowWriting allow_altering) { auto path = String::formatted("/etc/{}.ini", app_name); return adopt_ref(*new ConfigFile(path, allow_altering)); } NonnullRefPtr ConfigFile::open(String const& filename, AllowWriting allow_altering) { return adopt_ref(*new ConfigFile(filename, allow_altering)); } NonnullRefPtr ConfigFile::open(String const& filename, int fd) { return adopt_ref(*new ConfigFile(filename, fd)); } ConfigFile::ConfigFile(String const& filename, AllowWriting allow_altering) : m_file(File::construct(filename)) { if (!m_file->open(allow_altering == AllowWriting::Yes ? OpenMode::ReadWrite : OpenMode::ReadOnly)) return; reparse(); } ConfigFile::ConfigFile(String const& filename, int fd) : m_file(File::construct(filename)) { if (!m_file->open(fd, OpenMode::ReadWrite, File::ShouldCloseFileDescriptor::Yes)) return; reparse(); } ConfigFile::~ConfigFile() { sync(); } void ConfigFile::reparse() { m_groups.clear(); HashMap* current_group = nullptr; while (m_file->can_read_line()) { auto line = m_file->read_line(); if (line.is_null()) { m_groups.clear(); return; } auto* cp = line.characters(); while (*cp && (*cp == ' ' || *cp == '\t' || *cp == '\n')) ++cp; switch (*cp) { case '\0': // EOL... case '#': // Comment, skip entire line. case ';': // -||- continue; case '[': { // Start of new group. StringBuilder builder; ++cp; // Skip the '[' while (*cp && (*cp != ']')) builder.append(*(cp++)); current_group = &m_groups.ensure(builder.to_string()); break; } default: { // Start of key{ StringBuilder key_builder; StringBuilder value_builder; while (*cp && (*cp != '=')) key_builder.append(*(cp++)); ++cp; // Skip the '=' while (*cp && (*cp != '\n')) value_builder.append(*(cp++)); if (!current_group) { // We're not in a group yet, create one with the name ""... current_group = &m_groups.ensure(""); } auto value_string = value_builder.to_string(); current_group->set(key_builder.to_string(), value_string.trim_whitespace(TrimMode::Right)); } } } } String ConfigFile::read_entry(String const& group, String const& key, String const& default_value) const { if (!has_key(group, key)) { return default_value; } auto it = m_groups.find(group); auto jt = it->value.find(key); return jt->value; } int ConfigFile::read_num_entry(String const& group, String const& key, int default_value) const { if (!has_key(group, key)) { return default_value; } return read_entry(group, key).to_int().value_or(default_value); } bool ConfigFile::read_bool_entry(String const& group, String const& key, bool default_value) const { auto value = read_entry(group, key, default_value ? "true" : "false"); return value == "1" || value.equals_ignoring_case("true"sv); } void ConfigFile::write_entry(String const& group, String const& key, String const& value) { m_groups.ensure(group).ensure(key) = value; m_dirty = true; } void ConfigFile::write_num_entry(String const& group, String const& key, int value) { write_entry(group, key, String::number(value)); } void ConfigFile::write_bool_entry(String const& group, String const& key, bool value) { write_entry(group, key, value ? "true" : "false"); } void ConfigFile::write_color_entry(String const& group, String const& key, Color value) { write_entry(group, key, String::formatted("{},{},{},{}", value.red(), value.green(), value.blue(), value.alpha())); } bool ConfigFile::sync() { if (!m_dirty) return true; m_file->truncate(0); m_file->seek(0); for (auto& it : m_groups) { m_file->write(String::formatted("[{}]\n", it.key)); for (auto& jt : it.value) m_file->write(String::formatted("{}={}\n", jt.key, jt.value)); m_file->write("\n"); } m_dirty = false; return true; } void ConfigFile::dump() const { for (auto& it : m_groups) { outln("[{}]", it.key); for (auto& jt : it.value) outln("{}={}", jt.key, jt.value); outln(); } } Vector ConfigFile::groups() const { return m_groups.keys(); } Vector ConfigFile::keys(String const& group) const { auto it = m_groups.find(group); if (it == m_groups.end()) return {}; return it->value.keys(); } bool ConfigFile::has_key(String const& group, String const& key) const { auto it = m_groups.find(group); if (it == m_groups.end()) return {}; return it->value.contains(key); } bool ConfigFile::has_group(String const& group) const { return m_groups.contains(group); } void ConfigFile::remove_group(String const& group) { m_groups.remove(group); m_dirty = true; } void ConfigFile::remove_entry(String const& group, String const& key) { auto it = m_groups.find(group); if (it == m_groups.end()) return; it->value.remove(key); m_dirty = true; } }