#ifndef Poller_poll_H #define Poller_poll_H /*-------------------------------------------------------------------------- Copyright 1999,2000, Dan Kegel http://www.kegel.com/ See the file COPYING (Also freely licensed to Disappearing, Inc. under a separate license which allows them to do absolutely anything they want with it, without regard to the GPL.) This module is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This module is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA --------------------------------------------------------------------------*/ #include #include #include #include #include #include "Poller.h" /** * A class to monitor a set of file descriptors for readiness events. * Current an efficient wrapper around the poll() system call. * This is the code you would have written yourself if you had had the time... */ class Poller_poll : public Poller { public: /// Initialize the Poller. int init(); /// Release any resouces allocated internally by this Poller. void shutdown(); /** Add a file descriptor to the set we monitor. @param fd file descriptor to add @param client object to handle events for this fd. May use same client with more than one fd. @param eventmask initial event mask for this fd */ int add(int fd, Client *client, short eventmask); /// Remove a file descriptor int del(int fd); /// Give a new value for the given file descriptor's eventmask. int setMask(int fd, short eventmask); /// Set fd's eventmask to its present value OR'd with the given one int orMask(int fd, short eventmask); /// Set fd's eventmask to its present value AND'd with the given one int andMask(int fd, short eventmask); /** Sleep at most timeout_millisec waiting for an I/O readiness event on the file descriptors we're watching. Fills internal array of readiness events. Call getNextEvent() repeatedly to read its contents. @return 0 on success, EWOULDBLOCK if no events ready */ int waitForEvents(int timeout_millisec); /** Get the next event that was found by waitForEvents. @return 0 on success, EWOULDBLOCK if no more events */ int getNextEvent(PollEvent *e); /** Sleep at most timeout_millisec waiting for an I/O readiness event on the file descriptors we're watching, and dispatch events to the handler for each file descriptor that is ready for I/O. This is included as an example of how to use waitForEvents and getNextEvent. Real programs should probably avoid waitAndDispatchEvents and call waitForEvents and getNextEvent instead for maximum control over client deletion. */ int waitAndDispatchEvents(int timeout_millisec); private: /// 1 + maximum fd in monitored set = 1 + highest index used in m_fd2client[] int m_fd2client_used; /// number of elements allocated in m_fd2client[] int m_fd2client_alloc; /// Resizable array of pollfds to pass to poll(). Compact, no gaps. Does not contain duplicate fd's. struct pollfd *m_pfds; /// Resizable array of ptrs to event handlers, indexed by same index as m_pfds. May contain duplicates. Client **m_clients; /// Number of file descriptors monitored. Also 1 + highest index used in m_pfds or m_clients int m_pfds_used; /// number of elements allocated in m_pfds[] int m_pfds_alloc; /// Resizable lookup table indexed by fd to find entry in m_pfds or m_clients int *m_fd2pfdnum; /// number of events in m_pfds left after last call to getNextEvent() int m_rfds; /// used by dispatchNextEvent to iterate downwards through the clients int m_cur_pfdnum; }; #endif