// // AbstractConfiguration.cpp // // Library: Util // Package: Configuration // Module: AbstractConfiguration // // Copyright (c) 2004-2006, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #include "Poco/Util/AbstractConfiguration.h" #include "Poco/Util/ConfigurationView.h" #include "Poco/Exception.h" #include "Poco/NumberParser.h" #include "Poco/NumberFormatter.h" #include "Poco/String.h" using Poco::Mutex; using Poco::NotFoundException; using Poco::SyntaxException; using Poco::CircularReferenceException; using Poco::NumberParser; using Poco::NumberFormatter; using Poco::icompare; namespace Poco { namespace Util { AbstractConfiguration::AbstractConfiguration(): _depth(0), _eventsEnabled(true) { } AbstractConfiguration::~AbstractConfiguration() { } bool AbstractConfiguration::hasProperty(const std::string& key) const { Mutex::ScopedLock lock(_mutex); std::string value; return getRaw(key, value); } bool AbstractConfiguration::hasOption(const std::string& key) const { return hasProperty(key); } bool AbstractConfiguration::has(const std::string& key) const { return hasProperty(key); } std::string AbstractConfiguration::getString(const std::string& key) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return internalExpand(value); else throw NotFoundException(key); } std::string AbstractConfiguration::getString(const std::string& key, const std::string& defaultValue) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return internalExpand(value); else return defaultValue; } std::string AbstractConfiguration::getRawString(const std::string& key) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return value; else throw NotFoundException(key); } std::string AbstractConfiguration::getRawString(const std::string& key, const std::string& defaultValue) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return value; else return defaultValue; } int AbstractConfiguration::getInt(const std::string& key) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return parseInt(internalExpand(value)); else throw NotFoundException(key); } int AbstractConfiguration::getInt(const std::string& key, int defaultValue) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return parseInt(internalExpand(value)); else return defaultValue; } unsigned AbstractConfiguration::getUInt(const std::string& key) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return parseUInt(internalExpand(value)); else throw NotFoundException(key); } unsigned AbstractConfiguration::getUInt(const std::string& key, unsigned defaultValue) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return parseUInt(internalExpand(value)); else return defaultValue; } #if defined(POCO_HAVE_INT64) Int64 AbstractConfiguration::getInt64(const std::string& key) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return parseInt64(internalExpand(value)); else throw NotFoundException(key); } Int64 AbstractConfiguration::getInt64(const std::string& key, Int64 defaultValue) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return parseInt64(internalExpand(value)); else return defaultValue; } UInt64 AbstractConfiguration::getUInt64(const std::string& key) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return parseUInt64(internalExpand(value)); else throw NotFoundException(key); } UInt64 AbstractConfiguration::getUInt64(const std::string& key, UInt64 defaultValue) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return parseUInt64(internalExpand(value)); else return defaultValue; } #endif // defined(POCO_HAVE_INT64) double AbstractConfiguration::getDouble(const std::string& key) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return NumberParser::parseFloat(internalExpand(value)); else throw NotFoundException(key); } double AbstractConfiguration::getDouble(const std::string& key, double defaultValue) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return NumberParser::parseFloat(internalExpand(value)); else return defaultValue; } bool AbstractConfiguration::getBool(const std::string& key) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return parseBool(internalExpand(value)); else throw NotFoundException(key); } bool AbstractConfiguration::getBool(const std::string& key, bool defaultValue) const { Mutex::ScopedLock lock(_mutex); std::string value; if (getRaw(key, value)) return parseBool(internalExpand(value)); else return defaultValue; } void AbstractConfiguration::setString(const std::string& key, const std::string& value) { setRawWithEvent(key, value); } void AbstractConfiguration::setInt(const std::string& key, int value) { setRawWithEvent(key, NumberFormatter::format(value)); } void AbstractConfiguration::setUInt(const std::string& key, unsigned int value) { setRawWithEvent(key, NumberFormatter::format(value)); } #if defined(POCO_HAVE_INT64) void AbstractConfiguration::setInt64(const std::string& key, Int64 value) { Mutex::ScopedLock lock(_mutex); setRawWithEvent(key, NumberFormatter::format(value)); } void AbstractConfiguration::setUInt64(const std::string& key, UInt64 value) { Mutex::ScopedLock lock(_mutex); setRawWithEvent(key, NumberFormatter::format(value)); } #endif // defined(POCO_HAVE_INT64) void AbstractConfiguration::setDouble(const std::string& key, double value) { setRawWithEvent(key, NumberFormatter::format(value)); } void AbstractConfiguration::setBool(const std::string& key, bool value) { setRawWithEvent(key, value ? "true" : "false"); } void AbstractConfiguration::keys(Keys& range) const { Mutex::ScopedLock lock(_mutex); std::string key; range.clear(); enumerate(key, range); } void AbstractConfiguration::keys(const std::string& key, Keys& range) const { Mutex::ScopedLock lock(_mutex); range.clear(); enumerate(key, range); } const AbstractConfiguration::Ptr AbstractConfiguration::createView(const std::string& prefix) const { return new ConfigurationView(prefix, AbstractConfiguration::Ptr(const_cast(this), true)); } AbstractConfiguration::Ptr AbstractConfiguration::createView(const std::string& prefix) { return new ConfigurationView(prefix, AbstractConfiguration::Ptr(this, true)); } namespace { class AutoCounter { public: AutoCounter(int& count): _count(count) { ++_count; } ~AutoCounter() { --_count; } private: int& _count; }; } std::string AbstractConfiguration::expand(const std::string& value) const { Mutex::ScopedLock lock(_mutex); return internalExpand(value); } void AbstractConfiguration::remove(const std::string& key) { if (_eventsEnabled) { propertyRemoving(this, key); } { Mutex::ScopedLock lock(_mutex); removeRaw(key); } if (_eventsEnabled) { propertyRemoved(this, key); } } void AbstractConfiguration::enableEvents(bool enable) { _eventsEnabled = enable; } bool AbstractConfiguration::eventsEnabled() const { return _eventsEnabled; } void AbstractConfiguration::removeRaw(const std::string& key) { throw Poco::NotImplementedException("removeRaw()"); } std::string AbstractConfiguration::internalExpand(const std::string& value) const { AutoCounter counter(_depth); if (_depth > 10) throw CircularReferenceException("Too many property references encountered"); return uncheckedExpand(value); } std::string AbstractConfiguration::uncheckedExpand(const std::string& value) const { std::string result; std::string::const_iterator it = value.begin(); std::string::const_iterator end = value.end(); while (it != end) { if (*it == '$') { ++it; if (it != end && *it == '{') { ++it; std::string prop; while (it != end && *it != '}') prop += *it++; if (it != end) ++it; std::string value; if (getRaw(prop, value)) { result.append(internalExpand(value)); } else { result.append("${"); result.append(prop); result.append("}"); } } else result += '$'; } else result += *it++; } return result; } int AbstractConfiguration::parseInt(const std::string& value) { if ((value.compare(0, 2, "0x") == 0) || (value.compare(0, 2, "0X") == 0)) return static_cast(NumberParser::parseHex(value)); else return NumberParser::parse(value); } unsigned AbstractConfiguration::parseUInt(const std::string& value) { if ((value.compare(0, 2, "0x") == 0) || (value.compare(0, 2, "0X") == 0)) return NumberParser::parseHex(value); else return NumberParser::parseUnsigned(value); } Int64 AbstractConfiguration::parseInt64(const std::string& value) { if ((value.compare(0, 2, "0x") == 0) || (value.compare(0, 2, "0X") == 0)) return static_cast(NumberParser::parseHex64(value)); else return NumberParser::parse64(value); } UInt64 AbstractConfiguration::parseUInt64(const std::string& value) { if ((value.compare(0, 2, "0x") == 0) || (value.compare(0, 2, "0X") == 0)) return NumberParser::parseHex64(value); else return NumberParser::parseUnsigned64(value); } bool AbstractConfiguration::parseBool(const std::string& value) { int n; if (NumberParser::tryParse(value, n)) return n != 0; else if (icompare(value, "true") == 0) return true; else if (icompare(value, "yes") == 0) return true; else if (icompare(value, "on") == 0) return true; else if (icompare(value, "false") == 0) return false; else if (icompare(value, "no") == 0) return false; else if (icompare(value, "off") == 0) return false; else throw SyntaxException("Cannot convert to boolean", value); } void AbstractConfiguration::setRawWithEvent(const std::string& key, std::string value) { KeyValue kv(key, value); if (_eventsEnabled) { propertyChanging(this, kv); } { Mutex::ScopedLock lock(_mutex); setRaw(key, value); } if (_eventsEnabled) { propertyChanged(this, kv); } } } } // namespace Poco::Util