/////////////////////////////////////////////////////////////////////////////// // Name: src/unix/epolldispatcher.cpp // Purpose: implements dispatcher for epoll_wait() call // Author: Lukasz Michalski // Created: April 2007 // Copyright: (c) 2007 Lukasz Michalski // Licence: wxWindows licence /////////////////////////////////////////////////////////////////////////////// // ============================================================================ // declarations // ============================================================================ // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- // for compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #if wxUSE_EPOLL_DISPATCHER #include "wx/unix/private/epolldispatcher.h" #include "wx/unix/private.h" #include "wx/stopwatch.h" #ifndef WX_PRECOMP #include "wx/log.h" #include "wx/intl.h" #endif #include #include #include #define wxEpollDispatcher_Trace wxT("epolldispatcher") // ============================================================================ // implementation // ============================================================================ // helper: return EPOLLxxx mask corresponding to the given flags (and also log // debugging messages about it) static uint32_t GetEpollMask(int flags, int fd) { wxUnusedVar(fd); // unused if wxLogTrace() disabled uint32_t ep = 0; if ( flags & wxFDIO_INPUT ) { ep |= EPOLLIN; wxLogTrace(wxEpollDispatcher_Trace, wxT("Registered fd %d for input events"), fd); } if ( flags & wxFDIO_OUTPUT ) { ep |= EPOLLOUT; wxLogTrace(wxEpollDispatcher_Trace, wxT("Registered fd %d for output events"), fd); } if ( flags & wxFDIO_EXCEPTION ) { ep |= EPOLLERR | EPOLLHUP; wxLogTrace(wxEpollDispatcher_Trace, wxT("Registered fd %d for exceptional events"), fd); } return ep; } // ---------------------------------------------------------------------------- // wxEpollDispatcher // ---------------------------------------------------------------------------- /* static */ wxEpollDispatcher *wxEpollDispatcher::Create() { int epollDescriptor = epoll_create(1024); if ( epollDescriptor == -1 ) { wxLogSysError(_("Failed to create epoll descriptor")); return NULL; } wxLogTrace(wxEpollDispatcher_Trace, wxT("Epoll fd %d created"), epollDescriptor); return new wxEpollDispatcher(epollDescriptor); } wxEpollDispatcher::wxEpollDispatcher(int epollDescriptor) { wxASSERT_MSG( epollDescriptor != -1, wxT("invalid descriptor") ); m_epollDescriptor = epollDescriptor; } wxEpollDispatcher::~wxEpollDispatcher() { if ( close(m_epollDescriptor) != 0 ) { wxLogSysError(_("Error closing epoll descriptor")); } } bool wxEpollDispatcher::RegisterFD(int fd, wxFDIOHandler* handler, int flags) { epoll_event ev; ev.events = GetEpollMask(flags, fd); ev.data.ptr = handler; const int ret = epoll_ctl(m_epollDescriptor, EPOLL_CTL_ADD, fd, &ev); if ( ret != 0 ) { wxLogSysError(_("Failed to add descriptor %d to epoll descriptor %d"), fd, m_epollDescriptor); return false; } wxLogTrace(wxEpollDispatcher_Trace, wxT("Added fd %d (handler %p) to epoll %d"), fd, handler, m_epollDescriptor); return true; } bool wxEpollDispatcher::ModifyFD(int fd, wxFDIOHandler* handler, int flags) { epoll_event ev; ev.events = GetEpollMask(flags, fd); ev.data.ptr = handler; const int ret = epoll_ctl(m_epollDescriptor, EPOLL_CTL_MOD, fd, &ev); if ( ret != 0 ) { wxLogSysError(_("Failed to modify descriptor %d in epoll descriptor %d"), fd, m_epollDescriptor); return false; } wxLogTrace(wxEpollDispatcher_Trace, wxT("Modified fd %d (handler: %p) on epoll %d"), fd, handler, m_epollDescriptor); return true; } bool wxEpollDispatcher::UnregisterFD(int fd) { epoll_event ev; ev.events = 0; ev.data.ptr = NULL; if ( epoll_ctl(m_epollDescriptor, EPOLL_CTL_DEL, fd, &ev) != 0 ) { wxLogSysError(_("Failed to unregister descriptor %d from epoll descriptor %d"), fd, m_epollDescriptor); } wxLogTrace(wxEpollDispatcher_Trace, wxT("removed fd %d from %d"), fd, m_epollDescriptor); return true; } int wxEpollDispatcher::DoPoll(epoll_event *events, int numEvents, int timeout) const { // the code below relies on TIMEOUT_INFINITE being -1 so that we can pass // timeout value directly to epoll_wait() which interprets -1 as meaning to // wait forever and would need to be changed if the value of // TIMEOUT_INFINITE ever changes wxCOMPILE_TIME_ASSERT( TIMEOUT_INFINITE == -1, UpdateThisCode ); wxMilliClock_t timeEnd; if ( timeout > 0 ) timeEnd = wxGetLocalTimeMillis(); int rc; for ( ;; ) { rc = epoll_wait(m_epollDescriptor, events, numEvents, timeout); if ( rc != -1 || errno != EINTR ) break; // we got interrupted, update the timeout and restart if ( timeout > 0 ) { timeout = wxMilliClockToLong(timeEnd - wxGetLocalTimeMillis()); if ( timeout < 0 ) return 0; } } return rc; } bool wxEpollDispatcher::HasPending() const { epoll_event event; // NB: it's not really clear if epoll_wait() can return a number greater // than the number of events passed to it but just in case it can, use // >= instead of == here, see #10397 return DoPoll(&event, 1, 0) >= 1; } int wxEpollDispatcher::Dispatch(int timeout) { epoll_event events[16]; const int rc = DoPoll(events, WXSIZEOF(events), timeout); if ( rc == -1 ) { wxLogSysError(_("Waiting for IO on epoll descriptor %d failed"), m_epollDescriptor); return -1; } int numEvents = 0; for ( epoll_event *p = events; p < events + rc; p++ ) { wxFDIOHandler * const handler = (wxFDIOHandler *)(p->data.ptr); if ( !handler ) { wxFAIL_MSG( wxT("NULL handler in epoll_event?") ); continue; } // note that for compatibility with wxSelectDispatcher we call // OnReadWaiting() on EPOLLHUP as this is what epoll_wait() returns // when the write end of a pipe is closed while with select() the // remaining pipe end becomes ready for reading when this happens if ( p->events & (EPOLLIN | EPOLLHUP) ) handler->OnReadWaiting(); else if ( p->events & EPOLLOUT ) handler->OnWriteWaiting(); else if ( p->events & EPOLLERR ) handler->OnExceptionWaiting(); else continue; numEvents++; } return numEvents; } #endif // wxUSE_EPOLL_DISPATCHER