/* +------------------------------------+ * | Inspire Internet Relay Chat Daemon | * +------------------------------------+ * * InspIRCd: (C) 2002-2009 InspIRCd Development Team * See: http://www.inspircd.org/wiki/index.php/Credits * * This program is free but copyrighted software; see * the file COPYING for details. * * --------------------------------------------------- */ #ifndef __BASE_H__ #define __BASE_H__ #include #include #include /** A private data store for an Extensible class */ typedef std::map ExtensibleStore; /** The base class for all inspircd classes. * Wherever possible, all classes you create should inherit from this, * giving them the ability to be passed to various core functions * as 'anonymous' classes. */ class CoreExport classbase { public: /** Time that the object was instantiated (used for TS calculation etc) */ time_t age; /** Constructor. * Sets the object's time */ classbase(); /** Destructor. * Does sweet FA. */ virtual ~classbase() { } }; /** 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 Extension_Items; public: /** Extend an Extensible class. * * @param key The key parameter is an arbitary string which identifies the extension data * @param p This parameter is a pointer to any data you wish to associate with the object * * You must provide a key to store the data as via the parameter 'key' and store the data * in the templated parameter 'p'. * The data will be inserted into the map. If the data already exists, you may not insert it * twice, Extensible::Extend will return false in this case. * * @return Returns true on success, false if otherwise */ template bool Extend(const std::string &key, T* p) { /* This will only add an item if it doesnt already exist, * the return value is a std::pair of an iterator to the * element, and a bool saying if it was actually inserted. */ return this->Extension_Items.insert(std::make_pair(key, (char*)p)).second; } /** Extend an Extensible class. * * @param key The key parameter is an arbitary string which identifies the extension data * * You must provide a key to store the data as via the parameter 'key', this single-parameter * version takes no 'data' parameter, this is used purely for boolean values. * The key will be inserted into the map with a NULL 'data' pointer. If the key already exists * then you may not insert it twice, Extensible::Extend will return false in this case. * * @return Returns true on success, false if otherwise */ bool Extend(const std::string &key) { /* This will only add an item if it doesnt already exist, * the return value is a std::pair of an iterator to the * element, and a bool saying if it was actually inserted. */ return this->Extension_Items.insert(std::make_pair(key, (char*)NULL)).second; } /** Shrink an Extensible class. * * @param key The key parameter is an arbitary string which identifies the extension data * * You must provide a key name. The given key name will be removed from the classes data. If * you provide a nonexistent key (case is important) then the function will return false. * @return Returns true on success. */ bool Shrink(const std::string &key); /** Get an extension item. * * @param key The key parameter is an arbitary string which identifies the extension data * @param p If you provide a non-existent key, this value will be NULL. Otherwise a pointer to the item you requested will be placed in this templated parameter. * @return Returns true if the item was found and false if it was nor, regardless of wether 'p' is NULL. This allows you to store NULL values in Extensible. */ template bool GetExt(const std::string &key, T* &p) { ExtensibleStore::iterator iter = this->Extension_Items.find(key); /* Find the item */ if(iter != this->Extension_Items.end()) { p = (T*)iter->second; /* Item found */ return true; } else { p = NULL; /* Item not found */ return false; } } /** Get an extension item. * * @param key The key parameter is an arbitary string which identifies the extension data * @return Returns true if the item was found and false if it was not. * * This single-parameter version only checks if the key exists, it does nothing with * the 'data' field and is probably only useful in conjunction with the single-parameter * version of Extend(). */ bool GetExt(const std::string &key) { return (this->Extension_Items.find(key) != this->Extension_Items.end()); } /** Get a list of all extension items names. * @param list A deque of strings to receive the list * @return This function writes a list of all extension items stored in this object by name into the given deque and returns void. */ void GetExtList(std::deque &list); }; /** BoolSet is a utility class designed to hold eight bools in a bitmask. * Use BoolSet::Set and BoolSet::Get to set and get bools in the bitmask, * and Unset and Invert for special operations upon them. */ class CoreExport BoolSet : public classbase { /** Actual bit values */ char bits; public: /** The default constructor initializes the BoolSet to all values unset. */ BoolSet(); /** This constructor copies the default bitmask from a char */ BoolSet(char bitmask); /** The Set method sets one bool in the set. * * @param number The number of the item to set. This must be between 0 and 7. */ void Set(int number); /** The Get method returns the value of one bool in the set * * @param number The number of the item to retrieve. This must be between 0 and 7. * * @return True if the item is set, false if it is unset. */ bool Get(int number); /** The Unset method unsets one value in the set * * @param number The number of the item to set. This must be between 0 and 7. */ void Unset(int number); /** The Unset method inverts (flips) one value in the set * * @param number The number of the item to invert. This must be between 0 and 7. */ void Invert(int number); /** Compare two BoolSets */ bool operator==(BoolSet other); /** OR two BoolSets together */ BoolSet operator|(BoolSet other); /** AND two BoolSets together */ BoolSet operator&(BoolSet other); /** Assign one BoolSet to another */ bool operator=(BoolSet other); }; /** This class can be used on its own to represent an exception, or derived to represent a module-specific exception. * When a module whishes to abort, e.g. within a constructor, it should throw an exception using ModuleException or * a class derived from ModuleException. If a module throws an exception during its constructor, the module will not * be loaded. If this happens, the error message returned by ModuleException::GetReason will be displayed to the user * attempting to load the module, or dumped to the console if the ircd is currently loading for the first time. */ class CoreExport CoreException : public std::exception { protected: /** Holds the error message to be displayed */ const std::string err; /** Source of the exception */ const std::string source; public: /** Default constructor, just uses the error mesage 'Core threw an exception'. */ CoreException() : err("Core threw an exception"), source("The core") {} /** This constructor can be used to specify an error message before throwing. */ CoreException(const std::string &message) : err(message), source("The core") {} /** This constructor can be used to specify an error message before throwing, * and to specify the source of the exception. */ CoreException(const std::string &message, const std::string &src) : err(message), source(src) {} /** This destructor solves world hunger, cancels the world debt, and causes the world to end. * Actually no, it does nothing. Never mind. * @throws Nothing! */ virtual ~CoreException() throw() {}; /** Returns the reason for the exception. * The module should probably put something informative here as the user will see this upon failure. */ virtual const char* GetReason() { return err.c_str(); } virtual const char* GetSource() { return source.c_str(); } }; class CoreExport ModuleException : public CoreException { public: /** Default constructor, just uses the error mesage 'Module threw an exception'. */ ModuleException() : CoreException("Module threw an exception", "A Module") {} /** This constructor can be used to specify an error message before throwing. */ ModuleException(const std::string &message) : CoreException(message, "A Module") {} /** This destructor solves world hunger, cancels the world debt, and causes the world to end. * Actually no, it does nothing. Never mind. * @throws Nothing! */ virtual ~ModuleException() throw() {}; }; #endif