/* +------------------------------------+ * | Inspire Internet Relay Chat Daemon | * +------------------------------------+ * * InspIRCd: (C) 2002-2008 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. * * --------------------------------------------------- */ /* $Core: libIRCDlogger */ #include "inspircd.h" /* * Suggested implementation... * class LogManager * bool AddLogType(const std::string &type, enum loglevel, LogStream *) * bool DelLogType(const std::string &type, LogStream *) * Log(const std::string &type, enum loglevel, const std::string &msg) * std::map > logstreams (holds a 'chain' of logstreams for each type that are all notified when a log happens) * * class LogStream * std::string type * virtual void OnLog(enum loglevel, const std::string &msg) * * How it works: * Modules create their own logstream types (core will create one for 'file logging' for example) and create instances of these logstream types * and register interest in a certain logtype. Globbing is not here, with the exception of * - for all events.. loglevel is used to drop * events that are of no interest to a logstream. * * When Log is called, the vector of logstreams for that type is iterated (along with the special vector for "*"), and all registered logstreams * are called back ("OnLog" or whatever) to do whatever they like with the message. In the case of the core, this will write to a file. * In the case of the module I plan to write (m_logtochannel or something), it will log to the channel(s) for that logstream, etc. * * NOTE: Somehow we have to let LogManager manage the non-blocking file streams and provide an interface to share them with various LogStreams, * as, for example, a user may want to let 'KILL' and 'XLINE' snotices go to /home/ircd/inspircd/logs/operactions.log, or whatever. How * can we accomplish this easily? I guess with a map of pre-loved logpaths, and a pointer of FILE *.. * */ bool LogManager::AddLogType(const std::string &type, LogStream *l) { std::map >::iterator i = LogStreams.find(type); if (i != LogStreams.end()) i->second.push_back(l); else { std::vector v; v.push_back(l); LogStreams[type] = v; } if (type == "*") GlobalLogStreams.push_back(l); return true; } bool LogManager::DelLogType(const std::string &type, LogStream *l) { std::map >::iterator i = LogStreams.find(type); std::vector::iterator gi = GlobalLogStreams.begin(); while (gi != GlobalLogStreams.end()) { if ((*gi) == l) { GlobalLogStreams.erase(gi); break; } } if (i != LogStreams.end()) { std::vector::iterator it = i->second.begin(); while (it != i->second.end()) { if (*it == l) { i->second.erase(it); if (i->second.size() == 0) { LogStreams.erase(i); } delete l; return true; } it++; } } return false; } void LogManager::Log(const std::string &type, int loglevel, const char *fmt, ...) { va_list a; char buf[65536]; va_start(a, fmt); vsnprintf(buf, 65536, fmt, a); va_end(a); this->Log(type, loglevel, std::string(buf)); } void LogManager::Log(const std::string &type, int loglevel, const std::string &msg) { std::map >::iterator i = LogStreams.find(type); if (i != LogStreams.end()) { std::vector::iterator it = i->second.begin(); while (it != i->second.end()) { (*it)->OnLog(loglevel, msg); it++; } return; } std::vector::iterator gi = GlobalLogStreams.begin(); while (gi != GlobalLogStreams.end()) { (*gi)->OnLog(loglevel, msg); gi++; } // blurp, no handler for this type return; }