#include "config.hh" #include "args.hh" #include "abstractsettingtojson.hh" #include namespace nix { bool Config::set(const std::string & name, const std::string & value) { auto i = _settings.find(name); if (i == _settings.end()) return false; i->second.setting->set(value); i->second.setting->overriden = true; return true; } void Config::addSetting(AbstractSetting * setting) { _settings.emplace(setting->name, Config::SettingData(false, setting)); for (auto & alias : setting->aliases) _settings.emplace(alias, Config::SettingData(true, setting)); bool set = false; auto i = unknownSettings.find(setting->name); if (i != unknownSettings.end()) { setting->set(i->second); setting->overriden = true; unknownSettings.erase(i); set = true; } for (auto & alias : setting->aliases) { auto i = unknownSettings.find(alias); if (i != unknownSettings.end()) { if (set) warn("setting '%s' is set, but it's an alias of '%s' which is also set", alias, setting->name); else { setting->set(i->second); setting->overriden = true; unknownSettings.erase(i); set = true; } } } } void AbstractConfig::warnUnknownSettings() { for (auto & s : unknownSettings) warn("unknown setting '%s'", s.first); } void AbstractConfig::reapplyUnknownSettings() { auto unknownSettings2 = std::move(unknownSettings); for (auto & s : unknownSettings2) set(s.first, s.second); } void Config::getSettings(std::map & res, bool overridenOnly) { for (auto & opt : _settings) if (!opt.second.isAlias && (!overridenOnly || opt.second.setting->overriden)) res.emplace(opt.first, SettingInfo{opt.second.setting->to_string(), opt.second.setting->description}); } void AbstractConfig::applyConfig(const std::string & contents, const std::string & path) { unsigned int pos = 0; while (pos < contents.size()) { string line; while (pos < contents.size() && contents[pos] != '\n') line += contents[pos++]; pos++; string::size_type hash = line.find('#'); if (hash != string::npos) line = string(line, 0, hash); vector tokens = tokenizeString >(line); if (tokens.empty()) continue; if (tokens.size() < 2) throw UsageError("illegal configuration line '%1%' in '%2%'", line, path); auto include = false; auto ignoreMissing = false; if (tokens[0] == "include") include = true; else if (tokens[0] == "!include") { include = true; ignoreMissing = true; } if (include) { if (tokens.size() != 2) throw UsageError("illegal configuration line '%1%' in '%2%'", line, path); auto p = absPath(tokens[1], dirOf(path)); if (pathExists(p)) { applyConfigFile(p); } else if (!ignoreMissing) { throw Error("file '%1%' included from '%2%' not found", p, path); } continue; } if (tokens[1] != "=") throw UsageError("illegal configuration line '%1%' in '%2%'", line, path); string name = tokens[0]; vector::iterator i = tokens.begin(); advance(i, 2); set(name, concatStringsSep(" ", Strings(i, tokens.end()))); // FIXME: slow }; } void AbstractConfig::applyConfigFile(const Path & path) { try { string contents = readFile(path); applyConfig(contents, path); } catch (SysError &) { } } void Config::resetOverriden() { for (auto & s : _settings) s.second.setting->overriden = false; } nlohmann::json Config::toJSON() { auto res = nlohmann::json::object(); for (auto & s : _settings) if (!s.second.isAlias) { res.emplace(s.first, s.second.setting->toJSON()); } return res; } void Config::convertToArgs(Args & args, const std::string & category) { for (auto & s : _settings) if (!s.second.isAlias) s.second.setting->convertToArg(args, category); } AbstractSetting::AbstractSetting( const std::string & name, const std::string & description, const std::set & aliases) : name(name), description(stripIndentation(description)), aliases(aliases) { } void AbstractSetting::setDefault(const std::string & str) { if (!overriden) set(str); } nlohmann::json AbstractSetting::toJSON() { return nlohmann::json(toJSONObject()); } std::map AbstractSetting::toJSONObject() { std::map obj; obj.emplace("description", description); obj.emplace("aliases", aliases); return obj; } void AbstractSetting::convertToArg(Args & args, const std::string & category) { } template void BaseSetting::convertToArg(Args & args, const std::string & category) { args.addFlag({ .longName = name, .description = description, .category = category, .labels = {"value"}, .handler = {[=](std::string s) { overriden = true; set(s); }}, }); } template<> void BaseSetting::set(const std::string & str) { value = str; } template<> std::string BaseSetting::to_string() const { return value; } template void BaseSetting::set(const std::string & str) { static_assert(std::is_integral::value, "Integer required."); if (!string2Int(str, value)) throw UsageError("setting '%s' has invalid value '%s'", name, str); } template std::string BaseSetting::to_string() const { static_assert(std::is_integral::value, "Integer required."); return std::to_string(value); } template<> void BaseSetting::set(const std::string & str) { if (str == "true" || str == "yes" || str == "1") value = true; else if (str == "false" || str == "no" || str == "0") value = false; else throw UsageError("Boolean setting '%s' has invalid value '%s'", name, str); } template<> std::string BaseSetting::to_string() const { return value ? "true" : "false"; } template<> void BaseSetting::convertToArg(Args & args, const std::string & category) { args.addFlag({ .longName = name, .description = description, .category = category, .handler = {[=]() { override(true); }} }); args.addFlag({ .longName = "no-" + name, .description = description, .category = category, .handler = {[=]() { override(false); }} }); } template<> void BaseSetting::set(const std::string & str) { value = tokenizeString(str); } template<> std::string BaseSetting::to_string() const { return concatStringsSep(" ", value); } template<> void BaseSetting::set(const std::string & str) { value = tokenizeString(str); } template<> std::string BaseSetting::to_string() const { return concatStringsSep(" ", value); } template<> void BaseSetting::set(const std::string & str) { auto kvpairs = tokenizeString(str); for (auto & s : kvpairs) { auto eq = s.find_first_of('='); if (std::string::npos != eq) value.emplace(std::string(s, 0, eq), std::string(s, eq + 1)); // else ignored } } template<> std::string BaseSetting::to_string() const { Strings kvstrs; std::transform(value.begin(), value.end(), back_inserter(kvstrs), [&](auto kvpair){ return kvpair.first + "=" + kvpair.second; }); return concatStringsSep(" ", kvstrs); } template class BaseSetting; template class BaseSetting; template class BaseSetting; template class BaseSetting; template class BaseSetting; template class BaseSetting; template class BaseSetting; template class BaseSetting; template class BaseSetting; template class BaseSetting; template class BaseSetting; void PathSetting::set(const std::string & str) { if (str == "") { if (allowEmpty) value = ""; else throw UsageError("setting '%s' cannot be empty", name); } else value = canonPath(str); } bool GlobalConfig::set(const std::string & name, const std::string & value) { for (auto & config : *configRegistrations) if (config->set(name, value)) return true; unknownSettings.emplace(name, value); return false; } void GlobalConfig::getSettings(std::map & res, bool overridenOnly) { for (auto & config : *configRegistrations) config->getSettings(res, overridenOnly); } void GlobalConfig::resetOverriden() { for (auto & config : *configRegistrations) config->resetOverriden(); } nlohmann::json GlobalConfig::toJSON() { auto res = nlohmann::json::object(); for (auto & config : *configRegistrations) res.update(config->toJSON()); return res; } void GlobalConfig::convertToArgs(Args & args, const std::string & category) { for (auto & config : *configRegistrations) config->convertToArgs(args, category); } GlobalConfig globalConfig; GlobalConfig::ConfigRegistrations * GlobalConfig::configRegistrations; GlobalConfig::Register::Register(Config * config) { if (!configRegistrations) configRegistrations = new ConfigRegistrations; configRegistrations->emplace_back(config); } }