/* -*- mode: C; c-file-style: "gnu" -*- */ /* dbus-mainloop.c Main loop utility * * Copyright (C) 2003, 2004 Red Hat, Inc. * * Licensed under the Academic Free License version 2.1 * * This program 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 program 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 "dbus-mainloop.h" #ifndef DOXYGEN_SHOULD_SKIP_THIS #include #include #define MAINLOOP_SPEW 0 #if MAINLOOP_SPEW #ifdef DBUS_ENABLE_VERBOSE_MODE static const char* watch_flags_to_string (int flags) { const char *watch_type; if ((flags & DBUS_WATCH_READABLE) && (flags & DBUS_WATCH_WRITABLE)) watch_type = "readwrite"; else if (flags & DBUS_WATCH_READABLE) watch_type = "read"; else if (flags & DBUS_WATCH_WRITABLE) watch_type = "write"; else watch_type = "not read or write"; return watch_type; } #endif /* DBUS_ENABLE_VERBOSE_MODE */ #endif /* MAINLOOP_SPEW */ struct DBusLoop { int refcount; DBusList *callbacks; int callback_list_serial; int watch_count; int timeout_count; int depth; /**< number of recursive runs */ DBusList *need_dispatch; }; typedef enum { CALLBACK_WATCH, CALLBACK_TIMEOUT } CallbackType; typedef struct { int refcount; CallbackType type; void *data; DBusFreeFunction free_data_func; } Callback; typedef struct { Callback callback; DBusWatchFunction function; DBusWatch *watch; /* last watch handle failed due to OOM */ unsigned int last_iteration_oom : 1; } WatchCallback; typedef struct { Callback callback; DBusTimeout *timeout; DBusTimeoutFunction function; unsigned long last_tv_sec; unsigned long last_tv_usec; } TimeoutCallback; #define WATCH_CALLBACK(callback) ((WatchCallback*)callback) #define TIMEOUT_CALLBACK(callback) ((TimeoutCallback*)callback) static WatchCallback* watch_callback_new (DBusWatch *watch, DBusWatchFunction function, void *data, DBusFreeFunction free_data_func) { WatchCallback *cb; cb = dbus_new (WatchCallback, 1); if (cb == NULL) return NULL; cb->watch = watch; cb->function = function; cb->last_iteration_oom = FALSE; cb->callback.refcount = 1; cb->callback.type = CALLBACK_WATCH; cb->callback.data = data; cb->callback.free_data_func = free_data_func; return cb; } static TimeoutCallback* timeout_callback_new (DBusTimeout *timeout, DBusTimeoutFunction function, void *data, DBusFreeFunction free_data_func) { TimeoutCallback *cb; cb = dbus_new (TimeoutCallback, 1); if (cb == NULL) return NULL; cb->timeout = timeout; cb->function = function; _dbus_get_current_time (&cb->last_tv_sec, &cb->last_tv_usec); cb->callback.refcount = 1; cb->callback.type = CALLBACK_TIMEOUT; cb->callback.data = data; cb->callback.free_data_func = free_data_func; return cb; } static Callback * callback_ref (Callback *cb) { _dbus_assert (cb->refcount > 0); cb->refcount += 1; return cb; } static void callback_unref (Callback *cb) { _dbus_assert (cb->refcount > 0); cb->refcount -= 1; if (cb->refcount == 0) { if (cb->free_data_func) (* cb->free_data_func) (cb->data); dbus_free (cb); } } static dbus_bool_t add_callback (DBusLoop *loop, Callback *cb) { if (!_dbus_list_append (&loop->callbacks, cb)) return FALSE; loop->callback_list_serial += 1; switch (cb->type) { case CALLBACK_WATCH: loop->watch_count += 1; break; case CALLBACK_TIMEOUT: loop->timeout_count += 1; break; } return TRUE; } static void remove_callback (DBusLoop *loop, DBusList *link) { Callback *cb = link->data; switch (cb->type) { case CALLBACK_WATCH: loop->watch_count -= 1; break; case CALLBACK_TIMEOUT: loop->timeout_count -= 1; break; } callback_unref (cb); _dbus_list_remove_link (&loop->callbacks, link); loop->callback_list_serial += 1; } DBusLoop* _dbus_loop_new (void) { DBusLoop *loop; loop = dbus_new0 (DBusLoop, 1); if (loop == NULL) return NULL; loop->refcount = 1; return loop; } DBusLoop * _dbus_loop_ref (DBusLoop *loop) { _dbus_assert (loop != NULL); _dbus_assert (loop->refcount > 0); loop->refcount += 1; return loop; } void _dbus_loop_unref (DBusLoop *loop) { _dbus_assert (loop != NULL); _dbus_assert (loop->refcount > 0); loop->refcount -= 1; if (loop->refcount == 0) { while (loop->need_dispatch) { DBusConnection *connection = _dbus_list_pop_first (&loop->need_dispatch); dbus_connection_unref (connection); } dbus_free (loop); } } dbus_bool_t _dbus_loop_add_watch (DBusLoop *loop, DBusWatch *watch, DBusWatchFunction function, void *data, DBusFreeFunction free_data_func) { WatchCallback *wcb; wcb = watch_callback_new (watch, function, data, free_data_func); if (wcb == NULL) return FALSE; if (!add_callback (loop, (Callback*) wcb)) { wcb->callback.free_data_func = NULL; /* don't want to have this side effect */ callback_unref ((Callback*) wcb); return FALSE; } return TRUE; } void _dbus_loop_remove_watch (DBusLoop *loop, DBusWatch *watch, DBusWatchFunction function, void *data) { DBusList *link; link = _dbus_list_get_first_link (&loop->callbacks); while (link != NULL) { DBusList *next = _dbus_list_get_next_link (&loop->callbacks, link); Callback *this = link->data; if (this->type == CALLBACK_WATCH && WATCH_CALLBACK (this)->watch == watch && this->data == data && WATCH_CALLBACK (this)->function == function) { remove_callback (loop, link); return; } link = next; } _dbus_warn ("could not find watch %p function %p data %p to remove\n", watch, (void *)function, data); } dbus_bool_t _dbus_loop_add_timeout (DBusLoop *loop, DBusTimeout *timeout, DBusTimeoutFunction function, void *data, DBusFreeFunction free_data_func) { TimeoutCallback *tcb; tcb = timeout_callback_new (timeout, function, data, free_data_func); if (tcb == NULL) return FALSE; if (!add_callback (loop, (Callback*) tcb)) { tcb->callback.free_data_func = NULL; /* don't want to have this side effect */ callback_unref ((Callback*) tcb); return FALSE; } return TRUE; } void _dbus_loop_remove_timeout (DBusLoop *loop, DBusTimeout *timeout, DBusTimeoutFunction function, void *data) { DBusList *link; link = _dbus_list_get_first_link (&loop->callbacks); while (link != NULL) { DBusList *next = _dbus_list_get_next_link (&loop->callbacks, link); Callback *this = link->data; if (this->type == CALLBACK_TIMEOUT && TIMEOUT_CALLBACK (this)->timeout == timeout && this->data == data && TIMEOUT_CALLBACK (this)->function == function) { remove_callback (loop, link); return; } link = next; } _dbus_warn ("could not find timeout %p function %p data %p to remove\n", timeout, (void *)function, data); } /* Convolutions from GLib, there really must be a better way * to do this. */ static dbus_bool_t check_timeout (unsigned long tv_sec, unsigned long tv_usec, TimeoutCallback *tcb, int *timeout) { long sec_remaining; long msec_remaining; unsigned long expiration_tv_sec; unsigned long expiration_tv_usec; long interval_seconds; long interval_milliseconds; int interval; /* I'm pretty sure this function could suck (a lot) less */ interval = dbus_timeout_get_interval (tcb->timeout); interval_seconds = interval / 1000L; interval_milliseconds = interval % 1000L; expiration_tv_sec = tcb->last_tv_sec + interval_seconds; expiration_tv_usec = tcb->last_tv_usec + interval_milliseconds * 1000; if (expiration_tv_usec >= 1000000) { expiration_tv_usec -= 1000000; expiration_tv_sec += 1; } sec_remaining = expiration_tv_sec - tv_sec; /* need to force this to be signed, as it is intended to sometimes * produce a negative result */ msec_remaining = ((long) expiration_tv_usec - (long) tv_usec) / 1000L; #if MAINLOOP_SPEW _dbus_verbose ("Interval is %ld seconds %ld msecs\n", interval_seconds, interval_milliseconds); _dbus_verbose ("Now is %lu seconds %lu usecs\n", tv_sec, tv_usec); _dbus_verbose ("Last is %lu seconds %lu usecs\n", tcb->last_tv_sec, tcb->last_tv_usec); _dbus_verbose ("Exp is %lu seconds %lu usecs\n", expiration_tv_sec, expiration_tv_usec); _dbus_verbose ("Pre-correction, sec_remaining %ld msec_remaining %ld\n", sec_remaining, msec_remaining); #endif /* We do the following in a rather convoluted fashion to deal with * the fact that we don't have an integral type big enough to hold * the difference of two timevals in milliseconds. */ if (sec_remaining < 0 || (sec_remaining == 0 && msec_remaining < 0)) { *timeout = 0; } else { if (msec_remaining < 0) { msec_remaining += 1000; sec_remaining -= 1; } if (sec_remaining > (_DBUS_INT_MAX / 1000) || msec_remaining > _DBUS_INT_MAX) *timeout = _DBUS_INT_MAX; else *timeout = sec_remaining * 1000 + msec_remaining; } if (*timeout > interval) { /* This indicates that the system clock probably moved backward */ _dbus_verbose ("System clock set backward! Resetting timeout.\n"); tcb->last_tv_sec = tv_sec; tcb->last_tv_usec = tv_usec; *timeout = interval; } #if MAINLOOP_SPEW _dbus_verbose (" timeout expires in %d milliseconds\n", *timeout); #endif return *timeout == 0; } dbus_bool_t _dbus_loop_dispatch (DBusLoop *loop) { #if MAINLOOP_SPEW _dbus_verbose (" %d connections to dispatch\n", _dbus_list_get_length (&loop->need_dispatch)); #endif if (loop->need_dispatch == NULL) return FALSE; next: while (loop->need_dispatch != NULL) { DBusConnection *connection = _dbus_list_pop_first (&loop->need_dispatch); while (TRUE) { DBusDispatchStatus status; status = dbus_connection_dispatch (connection); if (status == DBUS_DISPATCH_COMPLETE) { dbus_connection_unref (connection); goto next; } else { if (status == DBUS_DISPATCH_NEED_MEMORY) _dbus_wait_for_memory (); } } } return TRUE; } dbus_bool_t _dbus_loop_queue_dispatch (DBusLoop *loop, DBusConnection *connection) { if (_dbus_list_append (&loop->need_dispatch, connection)) { dbus_connection_ref (connection); return TRUE; } else return FALSE; } /* Returns TRUE if we invoked any timeouts or have ready file * descriptors, which is just used in test code as a debug hack */ dbus_bool_t _dbus_loop_iterate (DBusLoop *loop, dbus_bool_t block) { #define N_STACK_DESCRIPTORS 64 dbus_bool_t retval; DBusPollFD *fds; DBusPollFD stack_fds[N_STACK_DESCRIPTORS]; int n_fds; WatchCallback **watches_for_fds; WatchCallback *stack_watches_for_fds[N_STACK_DESCRIPTORS]; int i; DBusList *link; int n_ready; int initial_serial; long timeout; dbus_bool_t oom_watch_pending; int orig_depth; retval = FALSE; fds = NULL; watches_for_fds = NULL; n_fds = 0; oom_watch_pending = FALSE; orig_depth = loop->depth; #if MAINLOOP_SPEW _dbus_verbose ("Iteration block=%d depth=%d timeout_count=%d watch_count=%d\n", block, loop->depth, loop->timeout_count, loop->watch_count); #endif if (loop->callbacks == NULL) goto next_iteration; if (loop->watch_count > N_STACK_DESCRIPTORS) { fds = dbus_new0 (DBusPollFD, loop->watch_count); while (fds == NULL) { _dbus_wait_for_memory (); fds = dbus_new0 (DBusPollFD, loop->watch_count); } watches_for_fds = dbus_new (WatchCallback*, loop->watch_count); while (watches_for_fds == NULL) { _dbus_wait_for_memory (); watches_for_fds = dbus_new (WatchCallback*, loop->watch_count); } } else { fds = stack_fds; watches_for_fds = stack_watches_for_fds; } /* fill our array of fds and watches */ n_fds = 0; link = _dbus_list_get_first_link (&loop->callbacks); while (link != NULL) { DBusList *next = _dbus_list_get_next_link (&loop->callbacks, link); Callback *cb = link->data; if (cb->type == CALLBACK_WATCH) { unsigned int flags; WatchCallback *wcb = WATCH_CALLBACK (cb); if (wcb->last_iteration_oom) { /* we skip this one this time, but reenable it next time, * and have a timeout on this iteration */ wcb->last_iteration_oom = FALSE; oom_watch_pending = TRUE; retval = TRUE; /* return TRUE here to keep the loop going, * since we don't know the watch is inactive */ #if MAINLOOP_SPEW _dbus_verbose (" skipping watch on fd %d as it was out of memory last time\n", dbus_watch_get_fd (wcb->watch)); #endif } else if (dbus_watch_get_enabled (wcb->watch)) { watches_for_fds[n_fds] = wcb; callback_ref (cb); flags = dbus_watch_get_flags (wcb->watch); fds[n_fds].fd = dbus_watch_get_fd (wcb->watch); fds[n_fds].revents = 0; fds[n_fds].events = 0; if (flags & DBUS_WATCH_READABLE) fds[n_fds].events |= _DBUS_POLLIN; if (flags & DBUS_WATCH_WRITABLE) fds[n_fds].events |= _DBUS_POLLOUT; #if MAINLOOP_SPEW _dbus_verbose (" polling watch on fd %d %s\n", fds[n_fds].fd, watch_flags_to_string (flags)); #endif n_fds += 1; } else { #if MAINLOOP_SPEW _dbus_verbose (" skipping disabled watch on fd %d %s\n", dbus_watch_get_fd (wcb->watch), watch_flags_to_string (dbus_watch_get_flags (wcb->watch))); #endif } } link = next; } timeout = -1; if (loop->timeout_count > 0) { unsigned long tv_sec; unsigned long tv_usec; _dbus_get_current_time (&tv_sec, &tv_usec); link = _dbus_list_get_first_link (&loop->callbacks); while (link != NULL) { DBusList *next = _dbus_list_get_next_link (&loop->callbacks, link); Callback *cb = link->data; if (cb->type == CALLBACK_TIMEOUT && dbus_timeout_get_enabled (TIMEOUT_CALLBACK (cb)->timeout)) { TimeoutCallback *tcb = TIMEOUT_CALLBACK (cb); int msecs_remaining; check_timeout (tv_sec, tv_usec, tcb, &msecs_remaining); if (timeout < 0) timeout = msecs_remaining; else timeout = MIN (msecs_remaining, timeout); #if MAINLOOP_SPEW _dbus_verbose (" timeout added, %d remaining, aggregate timeout %ld\n", msecs_remaining, timeout); #endif _dbus_assert (timeout >= 0); if (timeout == 0) break; /* it's not going to get shorter... */ } #if MAINLOOP_SPEW else if (cb->type == CALLBACK_TIMEOUT) { _dbus_verbose (" skipping disabled timeout\n"); } #endif link = next; } } /* Never block if we have stuff to dispatch */ if (!block || loop->need_dispatch != NULL) { timeout = 0; #if MAINLOOP_SPEW _dbus_verbose (" timeout is 0 as we aren't blocking\n"); #endif } /* if a watch is OOM, don't wait longer than the OOM * wait to re-enable it */ if (oom_watch_pending) timeout = MIN (timeout, _dbus_get_oom_wait ()); #if MAINLOOP_SPEW _dbus_verbose (" polling on %d descriptors timeout %ld\n", n_fds, timeout); #endif n_ready = _dbus_poll (fds, n_fds, timeout); initial_serial = loop->callback_list_serial; if (loop->timeout_count > 0) { unsigned long tv_sec; unsigned long tv_usec; _dbus_get_current_time (&tv_sec, &tv_usec); /* It'd be nice to avoid this O(n) thingy here */ link = _dbus_list_get_first_link (&loop->callbacks); while (link != NULL) { DBusList *next = _dbus_list_get_next_link (&loop->callbacks, link); Callback *cb = link->data; if (initial_serial != loop->callback_list_serial) goto next_iteration; if (loop->depth != orig_depth) goto next_iteration; if (cb->type == CALLBACK_TIMEOUT && dbus_timeout_get_enabled (TIMEOUT_CALLBACK (cb)->timeout)) { TimeoutCallback *tcb = TIMEOUT_CALLBACK (cb); int msecs_remaining; if (check_timeout (tv_sec, tv_usec, tcb, &msecs_remaining)) { /* Save last callback time and fire this timeout */ tcb->last_tv_sec = tv_sec; tcb->last_tv_usec = tv_usec; #if MAINLOOP_SPEW _dbus_verbose (" invoking timeout\n"); #endif (* tcb->function) (tcb->timeout, cb->data); retval = TRUE; } else { #if MAINLOOP_SPEW _dbus_verbose (" timeout has not expired\n"); #endif } } #if MAINLOOP_SPEW else if (cb->type == CALLBACK_TIMEOUT) { _dbus_verbose (" skipping invocation of disabled timeout\n"); } #endif link = next; } } if (n_ready > 0) { i = 0; while (i < n_fds) { /* FIXME I think this "restart if we change the watches" * approach could result in starving watches * toward the end of the list. */ if (initial_serial != loop->callback_list_serial) goto next_iteration; if (loop->depth != orig_depth) goto next_iteration; if (fds[i].revents != 0) { WatchCallback *wcb; unsigned int condition; wcb = watches_for_fds[i]; condition = 0; if (fds[i].revents & _DBUS_POLLIN) condition |= DBUS_WATCH_READABLE; if (fds[i].revents & _DBUS_POLLOUT) condition |= DBUS_WATCH_WRITABLE; if (fds[i].revents & _DBUS_POLLHUP) condition |= DBUS_WATCH_HANGUP; if (fds[i].revents & _DBUS_POLLERR) condition |= DBUS_WATCH_ERROR; /* condition may still be 0 if we got some * weird POLLFOO thing like POLLWRBAND */ if (condition != 0 && dbus_watch_get_enabled (wcb->watch)) { if (!(* wcb->function) (wcb->watch, condition, ((Callback*)wcb)->data)) wcb->last_iteration_oom = TRUE; #if MAINLOOP_SPEW _dbus_verbose (" Invoked watch, oom = %d\n", wcb->last_iteration_oom); #endif retval = TRUE; } } ++i; } } next_iteration: #if MAINLOOP_SPEW _dbus_verbose (" moving to next iteration\n"); #endif if (fds && fds != stack_fds) dbus_free (fds); if (watches_for_fds) { i = 0; while (i < n_fds) { callback_unref (&watches_for_fds[i]->callback); ++i; } if (watches_for_fds != stack_watches_for_fds) dbus_free (watches_for_fds); } if (_dbus_loop_dispatch (loop)) retval = TRUE; #if MAINLOOP_SPEW _dbus_verbose ("Returning %d\n", retval); #endif return retval; } void _dbus_loop_run (DBusLoop *loop) { int our_exit_depth; _dbus_assert (loop->depth >= 0); _dbus_loop_ref (loop); our_exit_depth = loop->depth; loop->depth += 1; _dbus_verbose ("Running main loop, depth %d -> %d\n", loop->depth - 1, loop->depth); while (loop->depth != our_exit_depth) _dbus_loop_iterate (loop, TRUE); _dbus_loop_unref (loop); } void _dbus_loop_quit (DBusLoop *loop) { _dbus_assert (loop->depth > 0); loop->depth -= 1; _dbus_verbose ("Quit main loop, depth %d -> %d\n", loop->depth + 1, loop->depth); } int _dbus_get_oom_wait (void) { #ifdef DBUS_BUILD_TESTS /* make tests go fast */ return 0; #else return 500; #endif } void _dbus_wait_for_memory (void) { _dbus_verbose ("Waiting for more memory\n"); _dbus_sleep_milliseconds (_dbus_get_oom_wait ()); } #endif /* DOXYGEN_SHOULD_SKIP_THIS */