/* $OpenBSD: file.c,v 1.11 2009/02/04 20:35:14 ratchov Exp $ */ /* * Copyright (c) 2008 Alexandre Ratchov * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* * non-blocking file i/o module: each file can be read or written (or * both). To achieve non-blocking io, we simply use the poll() syscall * in an event loop. If a read() or write() syscall return EAGAIN * (operation will block), then the file is marked as "for polling", else * the file is not polled again. * */ #include #include #include #include #include #include #include #include #include "conf.h" #include "file.h" #include "aproc.h" #include "abuf.h" #define MAXFDS 100 extern struct fileops listen_ops, pipe_ops; struct filelist file_list; void file_dprint(int n, struct file *f) { #ifdef DEBUG if (debug_level < n) return; fprintf(stderr, "%s:%s <", f->ops->name, f->name); if (f->state & FILE_ROK) fprintf(stderr, "ROK"); if (f->state & FILE_WOK) fprintf(stderr, "WOK"); if (f->state & FILE_EOF) fprintf(stderr, "EOF"); if (f->state & FILE_HUP) fprintf(stderr, "HUP"); fprintf(stderr, ">"); #endif } struct file * file_new(struct fileops *ops, char *name, unsigned nfds) { struct file *f; LIST_FOREACH(f, &file_list, entry) nfds += f->ops->nfds(f); if (nfds > MAXFDS) { DPRINTF("file_new: %s: too many polled files\n", name); return NULL; } f = malloc(ops->size); if (f == NULL) err(1, "file_new: %s", ops->name); f->ops = ops; f->name = name; f->state = 0; f->rproc = NULL; f->wproc = NULL; f->refs = 0; LIST_INSERT_HEAD(&file_list, f, entry); DPRINTF("file_new: %s:%s\n", ops->name, f->name); return f; } void file_del(struct file *f) { DPRINTF("file_del: "); file_dprint(1, f); if (f->refs > 0) { DPRINTF(": delayed\n"); f->state |= FILE_ZOMB; return; } else { DPRINTF(": immediate\n"); LIST_REMOVE(f, entry); f->ops->close(f); free(f); } } int file_poll(void) { nfds_t nfds, n; short events, revents; struct pollfd pfds[MAXFDS]; struct file *f, *fnext; struct aproc *p; #ifdef DEBUG unsigned nused, nfound; #endif /* * fill the pfds[] array with files that are blocked on reading * and/or writing, skipping those that're just waiting */ DPRINTFN(4, "file_poll:"); nfds = 0; #ifdef DEBUG nused = 0; nfound = 0; #endif LIST_FOREACH(f, &file_list, entry) { events = 0; if (f->rproc && !(f->state & FILE_ROK)) events |= POLLIN; if (f->wproc && !(f->state & FILE_WOK)) events |= POLLOUT; #ifdef DEBUG if (events) nused++; if (f->rproc || f->wproc) nfound++; #endif DPRINTFN(4, " %s(%x)", f->name, events); n = f->ops->pollfd(f, pfds + nfds, events); if (n == 0) { f->pfd = NULL; continue; } f->pfd = pfds + nfds; nfds += n; } DPRINTFN(4, "\n"); #ifdef DEBUG if (nused == 0 && nfound > 0) { fprintf(stderr, "file_poll: deadlock\n"); abort(); } #endif if (LIST_EMPTY(&file_list)) { DPRINTF("file_poll: nothing to do...\n"); return 0; } if (nfds > 0) { if (poll(pfds, nfds, -1) < 0) { if (errno == EINTR) return 1; err(1, "file_poll: poll failed"); } } f = LIST_FIRST(&file_list); while (f != LIST_END(&file_list)) { if (f->pfd == NULL) { f = LIST_NEXT(f, entry); continue; } f->refs++; revents = f->ops->revents(f, f->pfd); if (!(f->state & FILE_ZOMB) && (revents & POLLIN)) { revents &= ~POLLIN; f->state |= FILE_ROK; DPRINTFN(3, "file_poll: %s rok\n", f->name); for (;;) { p = f->rproc; if (!p || !p->ops->in(p, NULL)) break; } } if (!(f->state & FILE_ZOMB) && (revents & POLLOUT)) { revents &= ~POLLOUT; f->state |= FILE_WOK; DPRINTFN(3, "file_poll: %s wok\n", f->name); for (;;) { p = f->wproc; if (!p || !p->ops->out(p, NULL)) break; } } if (!(f->state & FILE_ZOMB) && (revents & POLLHUP)) { DPRINTFN(2, "file_poll: %s: disconnected\n", f->name); f->state |= (FILE_EOF | FILE_HUP); } if (!(f->state & FILE_ZOMB) && (f->state & FILE_EOF)) { DPRINTFN(2, "file_poll: %s: eof\n", f->name); p = f->rproc; if (p) p->ops->eof(p, NULL); f->state &= ~FILE_EOF; } if (!(f->state & FILE_ZOMB) && (f->state & FILE_HUP)) { DPRINTFN(2, "file_poll: %s hup\n", f->name); p = f->wproc; if (p) p->ops->hup(p, NULL); f->state &= ~FILE_HUP; } f->refs--; fnext = LIST_NEXT(f, entry); if (f->state & FILE_ZOMB) file_del(f); f = fnext; } if (LIST_EMPTY(&file_list)) { DPRINTFN(2, "file_poll: terminated\n"); return 0; } return 1; } void filelist_init(void) { sigset_t set; sigemptyset(&set); (void)sigaddset(&set, SIGPIPE); if (sigprocmask(SIG_BLOCK, &set, NULL)) err(1, "sigprocmask"); LIST_INIT(&file_list); } void filelist_done(void) { struct file *f; if (!LIST_EMPTY(&file_list)) { fprintf(stderr, "filelist_done: list not empty:\n"); LIST_FOREACH(f, &file_list, entry) { fprintf(stderr, "\t"); file_dprint(0, f); fprintf(stderr, "\n"); } abort(); } } /* * close all listening sockets * * XXX: remove this */ void filelist_unlisten(void) { struct file *f, *fnext; for (f = LIST_FIRST(&file_list); f != NULL; f = fnext) { fnext = LIST_NEXT(f, entry); if (f->ops == &listen_ops) file_del(f); } } unsigned file_read(struct file *file, unsigned char *data, unsigned count) { return file->ops->read(file, data, count); } unsigned file_write(struct file *file, unsigned char *data, unsigned count) { return file->ops->write(file, data, count); } void file_eof(struct file *f) { struct aproc *p; if (f->refs == 0) { DPRINTFN(2, "file_eof: %s: immediate\n", f->name); f->refs++; p = f->rproc; if (p) p->ops->eof(p, NULL); f->refs--; if (f->state & FILE_ZOMB) file_del(f); } else { DPRINTFN(2, "file_eof: %s: delayed\n", f->name); f->state &= ~FILE_ROK; f->state |= FILE_EOF; } } void file_hup(struct file *f) { struct aproc *p; if (f->refs == 0) { DPRINTFN(2, "file_hup: %s immediate\n", f->name); f->refs++; p = f->wproc; if (p) p->ops->hup(p, NULL); f->refs--; if (f->state & FILE_ZOMB) file_del(f); } else { DPRINTFN(2, "file_hup: %s: delayed\n", f->name); f->state &= ~FILE_WOK; f->state |= FILE_HUP; } } void file_close(struct file *f) { struct aproc *p; if (f->refs == 0) { DPRINTFN(2, "file_close: %s: immediate\n", f->name); f->refs++; p = f->rproc; if (p) p->ops->eof(p, NULL); p = f->wproc; if (p) p->ops->hup(p, NULL); f->refs--; if (f->state & FILE_ZOMB) file_del(f); } else { DPRINTFN(2, "file_close: %s: delayed\n", f->name); f->state &= ~(FILE_ROK | FILE_WOK); f->state |= (FILE_EOF | FILE_HUP); } }