#include "io_internal.h" #ifdef HAVE_SIGIO #define _GNU_SOURCE #include #endif #include #include #include #include #ifdef HAVE_KQUEUE #include #endif #ifdef HAVE_EPOLL #include #include #endif int64 io_waituntil2(int64 milliseconds) { struct pollfd* p; long i,j,r; if (!io_wanted_fds) return 0; #ifdef HAVE_EPOLL if (io_waitmode==EPOLL) { int n; struct epoll_event y[100]; if ((n=epoll_wait(io_master,y,100,milliseconds))==-1) return -1; for (i=n-1; i>=0; --i) { io_entry* e=array_get(&io_fds,sizeof(io_entry),y[i].data.fd); if (e) { if (y[i].events&(EPOLLERR|EPOLLHUP)) { /* error; signal whatever app is looking for */ if (e->wantread) y[i].events|=EPOLLIN; if (e->wantwrite) y[i].events|=EPOLLOUT; } if (!e->canread && (y[i].events&EPOLLIN)) { e->canread=1; e->next_read=first_readable; first_readable=y[i].data.fd; } if (!e->canwrite && (y[i].events&EPOLLOUT)) { e->canwrite=1; e->next_write=first_writeable; first_writeable=y[i].data.fd; } } else { epoll_ctl(io_master,EPOLL_CTL_DEL,y[i].data.fd,y+i); } } return n; } #endif #ifdef HAVE_KQUEUE if (io_waitmode==KQUEUE) { struct kevent y[100]; int n; struct timespec ts; ts.tv_sec=milliseconds/1000; ts.tv_nsec=(milliseconds%1000)*1000000; if ((n=kevent(io_master,0,0,y,100,milliseconds!=-1?&ts:0))==-1) return -1; for (i=n-1; i>=0; --i) { io_entry* e=array_get(&io_fds,sizeof(io_entry),y[--n].ident); if (e) { if (y[n].flags&EV_ERROR) { /* error; signal whatever app is looking for */ if (e->wantread) y[n].filter=EVFILT_READ; else if (e->wantwrite) y[n].filter=EVFILE_WRITE; } if (!e->canread && (y[n].filter==EVFILT_READ)) { e->canread=1; e->next_read=first_readable; first_readable=y[n].ident; } if (!e->canwrite && (y[n].filter==EVFILT_WRITE)) { e->canwrite=1; e->next_write=first_writeable; first_writeable=y[i].ident; } } } return n; } #endif #ifdef HAVE_SIGIO if (io_waitmode==_SIGIO) { siginfo_t info; struct timespec ts; int r; io_entry* e; if (alt_firstread>=0 && (e=array_get(&io_fds,sizeof(io_entry),alt_firstread)) && e->canread) return 1; if (alt_firstwrite>=0 && (e=array_get(&io_fds,sizeof(io_entry),alt_firstwrite)) && e->canwrite) return 1; if (milliseconds==-1) r=sigwaitinfo(&io_ss,&info); else { ts.tv_sec=milliseconds/1000; ts.tv_nsec=(milliseconds%1000)*1000000; r=sigtimedwait(&io_ss,&info,&ts); } switch (r) { case SIGIO: /* signal queue overflow */ signal(io_signum,SIG_DFL); goto dopoll; default: if (r==io_signum) { io_entry* e=array_get(&io_fds,sizeof(io_entry),info.si_fd); if (e) { if (info.si_band&(POLLERR|POLLHUP)) { /* error; signal whatever app is looking for */ if (e->wantread) info.si_band|=POLLIN; if (e->wantwrite) info.si_band|=POLLOUT; } if (info.si_band&POLLIN && !e->canread) { debug_printf(("io_waituntil2: enqueueing %ld in normal read queue before %ld\n",info.si_fd,first_readable)); e->canread=1; e->next_read=first_readable; first_readable=info.si_fd; } if (info.si_band&POLLOUT && !e->canwrite) { debug_printf(("io_waituntil2: enqueueing %ld in normal write queue before %ld\n",info.si_fd,first_writeable)); e->canwrite=1; e->next_write=first_writeable; first_writeable=info.si_fd; } } } } return 1; } dopoll: #endif for (i=r=0; icanread=e->canwrite=0; if (e->wantread || e->wantwrite) { struct pollfd* p; if ((p=array_allocate(&io_pollfds,sizeof(struct pollfd),r))) { p->fd=i; p->events=(e->wantread?POLLIN:0) + (e->wantwrite?POLLOUT:0); ++r; } else return -1; } } p=array_start(&io_pollfds); again: while ((i=poll(array_start(&io_pollfds),r,milliseconds))==0); if (i==-1) { if (errno==EINTR) goto again; return -1; } for (j=r-1; j>=0; --j) { io_entry* e=array_get(&io_fds,sizeof(io_entry),p->fd); if (p->revents&(POLLERR|POLLHUP)) { /* error; signal whatever app is looking for */ if (e->wantread) p->revents|=POLLIN; if (e->wantwrite) p->revents|=POLLOUT; } if (!e->canread && (p->revents&POLLIN)) { e->canread=1; e->next_read=first_readable; first_readable=p->fd; } if (!e->canwrite && (p->revents&POLLOUT)) { e->canwrite=1; e->next_write=first_writeable; first_writeable=p->fd; } p++; } return i; }