/* * Copyright (C) 1996-2015 The Squid Software Foundation and contributors * * Squid software is distributed under GPLv2+ license and includes * contributions from numerous individuals and organizations. * Please see the COPYING and CONTRIBUTORS files for details. */ #ifndef _SQUID_SRC_COMM_ACCEPT_LIMITER_H #define _SQUID_SRC_COMM_ACCEPT_LIMITER_H #include "comm/TcpAcceptor.h" #include namespace Comm { /** * FIFO Queue holding listener socket handlers which have been activated * ready to dupe their FD and accept() a new client connection. * But when doing so there were not enough FD available to handle the * new connection. These handlers are awaiting some FD to become free. * * defer - used only by Comm layer ConnAcceptor adding themselves when FD are limited. * removeDead - used only by Comm layer ConnAcceptor to remove themselves when dying. * kick - used by Comm layer when FD are closed. */ /* TODO this algorithm can be optimized further: * * 1) reduce overheads by only pushing one entry per port to the list? * use TcpAcceptor::isLimited as a flag whether to re-list when kick()'ing * or to NULL an entry while scanning the list for empty spaces. * Side effect: TcpAcceptor->kick() becomes allowed to pull off multiple accept()'s in bunches * * 2) re-implement as a std::queue instead of std::vector * storing head/tail pointers for fast push/pop and avoiding the whole shift() overhead */ class AcceptLimiter { public: /** retrieve the global instance of the queue. */ static AcceptLimiter &Instance(); /** delay accepting a new client connection. */ void defer(const TcpAcceptor::Pointer &afd); /** remove all records of an acceptor. Only to be called by the ConnAcceptor::swanSong() */ void removeDead(const TcpAcceptor::Pointer &afd); /** try to accept and begin processing any delayed client connections. */ void kick(); private: static AcceptLimiter Instance_; /** FIFO queue */ std::vector deferred_; }; }; // namepace Comm #endif /* _SQUID_SRC_COMM_ACCEPT_LIMITER_H */