// // UniqueAccessExpireStrategy.h // // Library: Foundation // Package: Cache // Module: UniqueAccessExpireStrategy // // Definition of the UniqueAccessExpireStrategy class. // // Copyright (c) 2006, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #ifndef Foundation_UniqueAccessExpireStrategy_INCLUDED #define Foundation_UniqueAccessExpireStrategy_INCLUDED #include "Poco/KeyValueArgs.h" #include "Poco/ValidArgs.h" #include "Poco/AbstractStrategy.h" #include "Poco/Bugcheck.h" #include "Poco/Timestamp.h" #include "Poco/Timespan.h" #include "Poco/EventArgs.h" #include "Poco/UniqueExpireStrategy.h" #include #include namespace Poco { template < class TKey, class TValue > class UniqueAccessExpireStrategy: public AbstractStrategy /// An UniqueExpireStrategy implements time based expiration of cache entries. In contrast /// to ExpireStrategy which only allows to set a per cache expiration value, it allows to define /// expiration per CacheEntry. /// Each TValue object must thus offer the following method: /// /// const Poco::Timestamp& getTimeout() const; /// /// which returns the timespan for how long an object will be valid without being accessed. { public: typedef std::pair KeyExpire; typedef std::multimap TimeIndex; typedef typename TimeIndex::iterator IndexIterator; typedef typename TimeIndex::const_iterator ConstIndexIterator; typedef std::map Keys; typedef typename Keys::iterator Iterator; public: UniqueAccessExpireStrategy() /// Create an unique expire strategy. { } ~UniqueAccessExpireStrategy() { } void onAdd(const void*, const KeyValueArgs & args) { // the expire value defines how many millisecs in the future the // value will expire, even insert negative values! Timestamp expire; expire += args.value().getTimeout().totalMicroseconds(); IndexIterator it = _keyIndex.insert(std::make_pair(expire, std::make_pair(args.key(), args.value().getTimeout()))); std::pair stat = _keys.insert(std::make_pair(args.key(), it)); if (!stat.second) { _keyIndex.erase(stat.first->second); stat.first->second = it; } } void onRemove(const void*, const TKey& key) { Iterator it = _keys.find(key); if (it != _keys.end()) { _keyIndex.erase(it->second); _keys.erase(it); } } void onGet(const void*, const TKey& key) { // get updates the expiration time stamp Iterator it = _keys.find(key); if (it != _keys.end()) { KeyExpire ke = it->second->second; // gen new absolute expire value Timestamp expire; expire += ke.second.totalMicroseconds(); // delete old index _keyIndex.erase(it->second); IndexIterator itt = _keyIndex.insert(std::make_pair(expire, ke)); // update iterator it->second = itt; } } void onClear(const void*, const EventArgs& args) { _keys.clear(); _keyIndex.clear(); } void onIsValid(const void*, ValidArgs& args) { Iterator it = _keys.find(args.key()); if (it != _keys.end()) { Timestamp now; if (it->second->first <= now) { args.invalidate(); } } else //not found: probably removed by onReplace args.invalidate(); } void onReplace(const void*, std::set& elemsToRemove) { // Note: replace only informs the cache which elements // it would like to remove! // it does not remove them on its own! IndexIterator it = _keyIndex.begin(); Timestamp now; while (it != _keyIndex.end() && it->first < now) { elemsToRemove.insert(it->second.first); ++it; } } protected: Keys _keys; /// For faster replacement of keys, the iterator points to the _keyIndex map TimeIndex _keyIndex; /// Maps time to key value }; } // namespace Poco #endif // Foundation_UniqueAccessExpireStrategy_INCLUDED