class Extensible; class Module; enum SerializeFormat { /** Shown to a human (does not need to be unserializable) */ FORMAT_USER, /** Passed internally to this process (i.e. for /RELOADMODULE) */ FORMAT_INTERNAL, /** Passed to other servers on the network (i.e. METADATA s2s command) */ FORMAT_NETWORK, /** Stored on disk (i.e. permchannel database) */ FORMAT_PERSIST }; /** Class represnting an extension of some object */ class CoreExport ExtensionItem { public: const std::string key; Module* const owner; ExtensionItem(const std::string& key, Module* owner); /** Serialize this item into a string * * @param format The format to serialize to * @param container The object containing this item * @param item The item itself */ virtual std::string serialize(SerializeFormat format, const Extensible* container, void* item) = 0; /** Convert the string form back into an item * @param format The format to serialize from (not FORMAT_USER) * @param container The object that this item applies to * @param value The return from a serialize() call that was run elsewhere with this key */ virtual void unserialize(SerializeFormat format, Extensible* container, const std::string& value) = 0; /** Free the item */ virtual void free(void* item) = 0; protected: /** Get the item from the internal map */ void* get_raw(const Extensible* container); /** Set the item in the internal map; returns old value */ void* set_raw(Extensible* container, void* value); /** Remove the item from the internal map; returns old value */ void* unset_raw(Extensible* container); }; /** A private data store for an Extensible class */ typedef std::map ExtensibleStore; /** class Extensible is the parent class of many classes such as User and Channel. * class Extensible implements a system which allows modules to 'extend' the class by attaching data within * a map associated with the object. In this way modules can store their own custom information within user * objects, channel objects and server objects, without breaking other modules (this is more sensible than using * a flags variable, and each module defining bits within the flag as 'theirs' as it is less prone to conflict and * supports arbitary data storage). */ class CoreExport Extensible : public classbase { /** Private data store. * Holds all extensible metadata for the class. */ ExtensibleStore extensions; typedef std::map ExtensibleTypes; static ExtensibleTypes extension_types; public: /** * Get the extension items for iteraton (i.e. for metadata sync during netburst) */ inline const ExtensibleStore& GetExtList() const { return extensions; } static inline const ExtensibleTypes& GetTypeList() { return extension_types; } static inline ExtensionItem* GetItem(const std::string& name) { ExtensibleTypes::iterator i = extension_types.find(name); if (i == extension_types.end()) return NULL; return i->second; } virtual ~Extensible(); static bool Register(ExtensionItem* item); static void UnRegister(Module* module); // Friend access for the protected getter/setter friend class ExtensionItem; }; /** Base class for items that are NOT synchronized between servers */ class CoreExport LocalExtItem : public ExtensionItem { public: LocalExtItem(const std::string& key, Module* owner); virtual std::string serialize(SerializeFormat format, const Extensible* container, void* item); virtual void unserialize(SerializeFormat format, Extensible* container, const std::string& value); virtual void free(void* item) = 0; }; template class CoreExport SimpleExtItem : public LocalExtItem { public: SimpleExtItem(const std::string& Key, Module* parent) : LocalExtItem(Key, parent) { } inline T* get(const Extensible* container) { return static_cast(get_raw(container)); } inline T* getNew(Extensible* container) { T* ptr = get(container); if (!ptr) { ptr = new T; set_raw(container, ptr); } return ptr; } inline void set(Extensible* container, const T& value) { T* ptr = new T(value); T* old = static_cast(set_raw(container, ptr)); delete old; } inline void set(Extensible* container, T* value) { T* old = static_cast(set_raw(container, value)); delete old; } inline void unset(Extensible* container) { T* old = static_cast(unset_raw(container)); delete old; } virtual void free(void* item) { delete static_cast(item); } }; class CoreExport LocalStringExt : public SimpleExtItem { public: LocalStringExt(const std::string& key, Module* owner); std::string serialize(SerializeFormat format, const Extensible* container, void* item); }; class CoreExport LocalIntExt : public LocalExtItem { public: LocalIntExt(const std::string& key, Module* owner); std::string serialize(SerializeFormat format, const Extensible* container, void* item); intptr_t get(const Extensible* container); intptr_t set(Extensible* container, intptr_t value); void free(void* item); }; class CoreExport StringExtItem : public ExtensionItem { public: StringExtItem(const std::string& key, Module* owner); std::string* get(const Extensible* container); std::string serialize(SerializeFormat format, const Extensible* container, void* item); void unserialize(SerializeFormat format, Extensible* container, const std::string& value); void set(Extensible* container, const std::string& value); void unset(Extensible* container); void free(void* item); };