X-Git-Url: https://www.chiark.greenend.org.uk/ucgi/~ianmdlvl/git?p=elogind.git;a=blobdiff_plain;f=src%2Flibsystemd%2Fsd-event%2Fsd-event.c;h=fb436adc13a971a6bbfebb99caa8cb11f3cb8583;hp=53f1904d3de828dcf56b62bcdb81bcdd42423361;hb=f4b2933ee7890e5d414ab266d8586f19027a2bd9;hpb=eec6022cf039e62233139000b9e95db943959e48 diff --git a/src/libsystemd/sd-event/sd-event.c b/src/libsystemd/sd-event/sd-event.c index 53f1904d3..fb436adc1 100644 --- a/src/libsystemd/sd-event/sd-event.c +++ b/src/libsystemd/sd-event/sd-event.c @@ -43,6 +43,7 @@ typedef enum EventSourceType { SOURCE_IO, SOURCE_TIME_REALTIME, + SOURCE_TIME_BOOTTIME, SOURCE_TIME_MONOTONIC, SOURCE_TIME_REALTIME_ALARM, SOURCE_TIME_BOOTTIME_ALARM, @@ -56,7 +57,7 @@ typedef enum EventSourceType { _SOURCE_EVENT_SOURCE_TYPE_INVALID = -1 } EventSourceType; -#define EVENT_SOURCE_IS_TIME(t) IN_SET((t), SOURCE_TIME_REALTIME, SOURCE_TIME_MONOTONIC, SOURCE_TIME_REALTIME_ALARM, SOURCE_TIME_BOOTTIME_ALARM) +#define EVENT_SOURCE_IS_TIME(t) IN_SET((t), SOURCE_TIME_REALTIME, SOURCE_TIME_BOOTTIME, SOURCE_TIME_MONOTONIC, SOURCE_TIME_REALTIME_ALARM, SOURCE_TIME_BOOTTIME_ALARM) struct sd_event_source { unsigned n_ref; @@ -65,6 +66,8 @@ struct sd_event_source { void *userdata; sd_event_handler_t prepare; + char *description; + EventSourceType type:5; int enabled:3; bool pending:1; @@ -130,6 +133,8 @@ struct clock_data { Prioq *earliest; Prioq *latest; usec_t next; + + bool needs_rearm:1; }; struct sd_event { @@ -142,10 +147,11 @@ struct sd_event { Prioq *pending; Prioq *prepare; - /* timerfd_create() only supports these four clocks so far. We + /* timerfd_create() only supports these five clocks so far. We * can add support for more clocks when the kernel learns to * deal with them, too. */ struct clock_data realtime; + struct clock_data boottime; struct clock_data monotonic; struct clock_data realtime_alarm; struct clock_data boottime_alarm; @@ -377,6 +383,7 @@ static void event_free(sd_event *e) { safe_close(e->watchdog_fd); free_clock_data(&e->realtime); + free_clock_data(&e->boottime); free_clock_data(&e->monotonic); free_clock_data(&e->realtime_alarm); free_clock_data(&e->boottime_alarm); @@ -403,10 +410,10 @@ _public_ int sd_event_new(sd_event** ret) { return -ENOMEM; e->n_ref = 1; - e->signal_fd = e->watchdog_fd = e->epoll_fd = e->realtime.fd = e->monotonic.fd = e->realtime_alarm.fd = e->boottime_alarm.fd = -1; - e->realtime.next = e->monotonic.next = e->realtime_alarm.next = e->boottime_alarm.next = (usec_t) -1; + e->signal_fd = e->watchdog_fd = e->epoll_fd = e->realtime.fd = e->boottime.fd = e->monotonic.fd = e->realtime_alarm.fd = e->boottime_alarm.fd = -1; + e->realtime.next = e->boottime.next = e->monotonic.next = e->realtime_alarm.next = e->boottime_alarm.next = USEC_INFINITY; e->original_pid = getpid(); - e->perturb = (usec_t) -1; + e->perturb = USEC_INFINITY; assert_se(sigemptyset(&e->sigset) == 0); @@ -517,6 +524,9 @@ static clockid_t event_source_type_to_clock(EventSourceType t) { case SOURCE_TIME_REALTIME: return CLOCK_REALTIME; + case SOURCE_TIME_BOOTTIME: + return CLOCK_BOOTTIME; + case SOURCE_TIME_MONOTONIC: return CLOCK_MONOTONIC; @@ -538,6 +548,9 @@ static EventSourceType clock_to_event_source_type(clockid_t clock) { case CLOCK_REALTIME: return SOURCE_TIME_REALTIME; + case CLOCK_BOOTTIME: + return SOURCE_TIME_BOOTTIME; + case CLOCK_MONOTONIC: return SOURCE_TIME_MONOTONIC; @@ -560,6 +573,9 @@ static struct clock_data* event_get_clock_data(sd_event *e, EventSourceType t) { case SOURCE_TIME_REALTIME: return &e->realtime; + case SOURCE_TIME_BOOTTIME: + return &e->boottime; + case SOURCE_TIME_MONOTONIC: return &e->monotonic; @@ -574,6 +590,44 @@ static struct clock_data* event_get_clock_data(sd_event *e, EventSourceType t) { } } +static bool need_signal(sd_event *e, int signal) { + return (e->signal_sources && e->signal_sources[signal] && + e->signal_sources[signal]->enabled != SD_EVENT_OFF) + || + (signal == SIGCHLD && + e->n_enabled_child_sources > 0); +} + +static int event_update_signal_fd(sd_event *e) { + struct epoll_event ev = {}; + bool add_to_epoll; + int r; + + assert(e); + + add_to_epoll = e->signal_fd < 0; + + r = signalfd(e->signal_fd, &e->sigset, SFD_NONBLOCK|SFD_CLOEXEC); + if (r < 0) + return -errno; + + e->signal_fd = r; + + if (!add_to_epoll) + return 0; + + ev.events = EPOLLIN; + ev.data.ptr = INT_TO_PTR(SOURCE_SIGNAL); + + r = epoll_ctl(e->epoll_fd, EPOLL_CTL_ADD, e->signal_fd, &ev); + if (r < 0) { + e->signal_fd = safe_close(e->signal_fd); + return -errno; + } + + return 0; +} + static void source_disconnect(sd_event_source *s) { sd_event *event; @@ -593,6 +647,7 @@ static void source_disconnect(sd_event_source *s) { break; case SOURCE_TIME_REALTIME: + case SOURCE_TIME_BOOTTIME: case SOURCE_TIME_MONOTONIC: case SOURCE_TIME_REALTIME_ALARM: case SOURCE_TIME_BOOTTIME_ALARM: { @@ -603,16 +658,23 @@ static void source_disconnect(sd_event_source *s) { prioq_remove(d->earliest, s, &s->time.earliest_index); prioq_remove(d->latest, s, &s->time.latest_index); + d->needs_rearm = true; break; } case SOURCE_SIGNAL: if (s->signal.sig > 0) { - if (s->signal.sig != SIGCHLD || s->event->n_enabled_child_sources == 0) - assert_se(sigdelset(&s->event->sigset, s->signal.sig) == 0); - if (s->event->signal_sources) s->event->signal_sources[s->signal.sig] = NULL; + + /* If the signal was on and now it is off... */ + if (s->enabled != SD_EVENT_OFF && !need_signal(s->event, s->signal.sig)) { + assert_se(sigdelset(&s->event->sigset, s->signal.sig) == 0); + + (void) event_update_signal_fd(s->event); + /* If disabling failed, we might get a spurious event, + * but otherwise nothing bad should happen. */ + } } break; @@ -622,10 +684,16 @@ static void source_disconnect(sd_event_source *s) { if (s->enabled != SD_EVENT_OFF) { assert(s->event->n_enabled_child_sources > 0); s->event->n_enabled_child_sources--; - } - if (!s->event->signal_sources || !s->event->signal_sources[SIGCHLD]) - assert_se(sigdelset(&s->event->sigset, SIGCHLD) == 0); + /* We know the signal was on, if it is off now... */ + if (!need_signal(s->event, SIGCHLD)) { + assert_se(sigdelset(&s->event->sigset, SIGCHLD) == 0); + + (void) event_update_signal_fd(s->event); + /* If disabling failed, we might get a spurious event, + * but otherwise nothing bad should happen. */ + } + } hashmap_remove(s->event->child_sources, INT_TO_PTR(s->child.pid)); } @@ -669,6 +737,7 @@ static void source_free(sd_event_source *s) { assert(s); source_disconnect(s); + free(s->description); free(s); } @@ -702,6 +771,7 @@ static int source_set_pending(sd_event_source *s, bool b) { prioq_reshuffle(d->earliest, s, &s->time.earliest_index); prioq_reshuffle(d->latest, s, &s->time.latest_index); + d->needs_rearm = true; } return 0; @@ -762,7 +832,7 @@ _public_ int sd_event_add_io( r = source_io_register(s, s->enabled, events); if (r < 0) { source_free(s); - return -errno; + return r; } if (ret) @@ -783,7 +853,7 @@ static void initialize_perturb(sd_event *e) { bit. Here, we calculate a perturbation usec offset from the boot ID. */ - if (_likely_(e->perturb != (usec_t) -1)) + if (_likely_(e->perturb != USEC_INFINITY)) return; if (sd_id128_get_boot(&bootid) >= 0) @@ -877,6 +947,8 @@ _public_ int sd_event_add_time( s->userdata = userdata; s->enabled = SD_EVENT_ONESHOT; + d->needs_rearm = true; + r = prioq_put(d->earliest, s, &s->time.earliest_index); if (r < 0) goto fail; @@ -895,36 +967,6 @@ fail: return r; } -static int event_update_signal_fd(sd_event *e) { - struct epoll_event ev = {}; - bool add_to_epoll; - int r; - - assert(e); - - add_to_epoll = e->signal_fd < 0; - - r = signalfd(e->signal_fd, &e->sigset, SFD_NONBLOCK|SFD_CLOEXEC); - if (r < 0) - return -errno; - - e->signal_fd = r; - - if (!add_to_epoll) - return 0; - - ev.events = EPOLLIN; - ev.data.ptr = INT_TO_PTR(SOURCE_SIGNAL); - - r = epoll_ctl(e->epoll_fd, EPOLL_CTL_ADD, e->signal_fd, &ev); - if (r < 0) { - e->signal_fd = safe_close(e->signal_fd); - return -errno; - } - - return 0; -} - static int signal_exit_callback(sd_event_source *s, const struct signalfd_siginfo *si, void *userdata) { assert(s); @@ -941,6 +983,7 @@ _public_ int sd_event_add_signal( sd_event_source *s; sigset_t ss; int r; + bool previous; assert_return(e, -EINVAL); assert_return(sig > 0, -EINVAL); @@ -965,6 +1008,8 @@ _public_ int sd_event_add_signal( } else if (e->signal_sources[sig]) return -EBUSY; + previous = need_signal(e, sig); + s = source_new(e, !ret, SOURCE_SIGNAL); if (!s) return -ENOMEM; @@ -975,9 +1020,10 @@ _public_ int sd_event_add_signal( s->enabled = SD_EVENT_ON; e->signal_sources[sig] = s; - assert_se(sigaddset(&e->sigset, sig) == 0); - if (sig != SIGCHLD || e->n_enabled_child_sources == 0) { + if (!previous) { + assert_se(sigaddset(&e->sigset, sig) == 0); + r = event_update_signal_fd(e); if (r < 0) { source_free(s); @@ -985,6 +1031,9 @@ _public_ int sd_event_add_signal( } } + /* Use the signal name as description for the event source by default */ + (void) sd_event_source_set_description(s, signal_to_string(sig)); + if (ret) *ret = s; @@ -1001,6 +1050,7 @@ _public_ int sd_event_add_child( sd_event_source *s; int r; + bool previous; assert_return(e, -EINVAL); assert_return(pid > 1, -EINVAL); @@ -1010,13 +1060,15 @@ _public_ int sd_event_add_child( assert_return(e->state != SD_EVENT_FINISHED, -ESTALE); assert_return(!event_pid_changed(e), -ECHILD); - r = hashmap_ensure_allocated(&e->child_sources, trivial_hash_func, trivial_compare_func); + r = hashmap_ensure_allocated(&e->child_sources, NULL); if (r < 0) return r; if (hashmap_contains(e->child_sources, INT_TO_PTR(pid))) return -EBUSY; + previous = need_signal(e, SIGCHLD); + s = source_new(e, !ret, SOURCE_CHILD); if (!s) return -ENOMEM; @@ -1035,13 +1087,13 @@ _public_ int sd_event_add_child( e->n_enabled_child_sources ++; - assert_se(sigaddset(&e->sigset, SIGCHLD) == 0); + if (!previous) { + assert_se(sigaddset(&e->sigset, SIGCHLD) == 0); - if (!e->signal_sources || !e->signal_sources[SIGCHLD]) { r = event_update_signal_fd(e); if (r < 0) { source_free(s); - return -errno; + return r; } } @@ -1101,7 +1153,7 @@ _public_ int sd_event_add_post( assert_return(e->state != SD_EVENT_FINISHED, -ESTALE); assert_return(!event_pid_changed(e), -ECHILD); - r = set_ensure_allocated(&e->post_sources, trivial_hash_func, trivial_compare_func); + r = set_ensure_allocated(&e->post_sources, NULL); if (r < 0) return r; @@ -1204,6 +1256,23 @@ _public_ sd_event_source* sd_event_source_unref(sd_event_source *s) { return NULL; } +_public_ int sd_event_source_set_description(sd_event_source *s, const char *description) { + assert_return(s, -EINVAL); + assert_return(!event_pid_changed(s->event), -ECHILD); + + return free_and_strdup(&s->description, description); +} + +_public_ int sd_event_source_get_description(sd_event_source *s, const char **description) { + assert_return(s, -EINVAL); + assert_return(description, -EINVAL); + assert_return(s->description, -ENXIO); + assert_return(!event_pid_changed(s->event), -ECHILD); + + *description = s->description; + return 0; +} + _public_ sd_event *sd_event_source_get_event(sd_event_source *s) { assert_return(s, NULL); @@ -1282,7 +1351,8 @@ _public_ int sd_event_source_set_io_events(sd_event_source *s, uint32_t events) assert_return(s->event->state != SD_EVENT_FINISHED, -ESTALE); assert_return(!event_pid_changed(s->event), -ECHILD); - if (s->io.events == events) + /* edge-triggered updates are never skipped, so we can reset edges */ + if (s->io.events == events && !(events & EPOLLET)) return 0; if (s->enabled != SD_EVENT_OFF) { @@ -1382,6 +1452,7 @@ _public_ int sd_event_source_set_enabled(sd_event_source *s, int m) { break; case SOURCE_TIME_REALTIME: + case SOURCE_TIME_BOOTTIME: case SOURCE_TIME_MONOTONIC: case SOURCE_TIME_REALTIME_ALARM: case SOURCE_TIME_BOOTTIME_ALARM: { @@ -1393,27 +1464,37 @@ _public_ int sd_event_source_set_enabled(sd_event_source *s, int m) { prioq_reshuffle(d->earliest, s, &s->time.earliest_index); prioq_reshuffle(d->latest, s, &s->time.latest_index); + d->needs_rearm = true; break; } case SOURCE_SIGNAL: + assert(need_signal(s->event, s->signal.sig)); + s->enabled = m; - if (s->signal.sig != SIGCHLD || s->event->n_enabled_child_sources == 0) { + + if (!need_signal(s->event, s->signal.sig)) { assert_se(sigdelset(&s->event->sigset, s->signal.sig) == 0); - event_update_signal_fd(s->event); + + (void) event_update_signal_fd(s->event); + /* If disabling failed, we might get a spurious event, + * but otherwise nothing bad should happen. */ } break; case SOURCE_CHILD: + assert(need_signal(s->event, SIGCHLD)); + s->enabled = m; assert(s->event->n_enabled_child_sources > 0); s->event->n_enabled_child_sources--; - if (!s->event->signal_sources || !s->event->signal_sources[SIGCHLD]) { + if (!need_signal(s->event, SIGCHLD)) { assert_se(sigdelset(&s->event->sigset, SIGCHLD) == 0); - event_update_signal_fd(s->event); + + (void) event_update_signal_fd(s->event); } break; @@ -1444,6 +1525,7 @@ _public_ int sd_event_source_set_enabled(sd_event_source *s, int m) { break; case SOURCE_TIME_REALTIME: + case SOURCE_TIME_BOOTTIME: case SOURCE_TIME_MONOTONIC: case SOURCE_TIME_REALTIME_ALARM: case SOURCE_TIME_BOOTTIME_ALARM: { @@ -1455,26 +1537,39 @@ _public_ int sd_event_source_set_enabled(sd_event_source *s, int m) { prioq_reshuffle(d->earliest, s, &s->time.earliest_index); prioq_reshuffle(d->latest, s, &s->time.latest_index); + d->needs_rearm = true; break; } case SOURCE_SIGNAL: - s->enabled = m; - - if (s->signal.sig != SIGCHLD || s->event->n_enabled_child_sources == 0) { + /* Check status before enabling. */ + if (!need_signal(s->event, s->signal.sig)) { assert_se(sigaddset(&s->event->sigset, s->signal.sig) == 0); - event_update_signal_fd(s->event); + + r = event_update_signal_fd(s->event); + if (r < 0) { + s->enabled = SD_EVENT_OFF; + return r; + } } + + s->enabled = m; break; case SOURCE_CHILD: + /* Check status before enabling. */ if (s->enabled == SD_EVENT_OFF) { - s->event->n_enabled_child_sources++; - - if (!s->event->signal_sources || !s->event->signal_sources[SIGCHLD]) { - assert_se(sigaddset(&s->event->sigset, SIGCHLD) == 0); - event_update_signal_fd(s->event); + if (!need_signal(s->event, SIGCHLD)) { + assert_se(sigaddset(&s->event->sigset, s->signal.sig) == 0); + + r = event_update_signal_fd(s->event); + if (r < 0) { + s->enabled = SD_EVENT_OFF; + return r; + } } + + s->event->n_enabled_child_sources++; } s->enabled = m; @@ -1532,6 +1627,7 @@ _public_ int sd_event_source_set_time(sd_event_source *s, uint64_t usec) { prioq_reshuffle(d->earliest, s, &s->time.earliest_index); prioq_reshuffle(d->latest, s, &s->time.latest_index); + d->needs_rearm = true; return 0; } @@ -1566,6 +1662,7 @@ _public_ int sd_event_source_set_time_accuracy(sd_event_source *s, uint64_t usec assert(d); prioq_reshuffle(d->latest, s, &s->time.latest_index); + d->needs_rearm = true; return 0; } @@ -1729,13 +1826,18 @@ static int event_arm_timer( assert(e); assert(d); + if (!d->needs_rearm) + return 0; + else + d->needs_rearm = false; + a = prioq_peek(d->earliest); if (!a || a->enabled == SD_EVENT_OFF) { if (d->fd < 0) return 0; - if (d->next == (usec_t) -1) + if (d->next == USEC_INFINITY) return 0; /* disarm */ @@ -1743,7 +1845,7 @@ static int event_arm_timer( if (r < 0) return r; - d->next = (usec_t) -1; + d->next = USEC_INFINITY; return 0; } @@ -1811,7 +1913,7 @@ static int flush_timer(sd_event *e, int fd, uint32_t events, usec_t *next) { return -EIO; if (next) - *next = (usec_t) -1; + *next = USEC_INFINITY; return 0; } @@ -1841,6 +1943,7 @@ static int process_timer( prioq_reshuffle(d->earliest, s, &s->time.earliest_index); prioq_reshuffle(d->latest, s, &s->time.latest_index); + d->needs_rearm = true; } return 0; @@ -1918,38 +2021,42 @@ static int process_signal(sd_event *e, uint32_t events) { int r; assert(e); - assert(e->signal_sources); assert_return(events == EPOLLIN, -EIO); for (;;) { struct signalfd_siginfo si; - ssize_t ss; - sd_event_source *s; + ssize_t n; + sd_event_source *s = NULL; - ss = read(e->signal_fd, &si, sizeof(si)); - if (ss < 0) { + n = read(e->signal_fd, &si, sizeof(si)); + if (n < 0) { if (errno == EAGAIN || errno == EINTR) return read_one; return -errno; } - if (_unlikely_(ss != sizeof(si))) + if (_unlikely_(n != sizeof(si))) return -EIO; + assert(si.ssi_signo < _NSIG); + read_one = true; - s = e->signal_sources[si.ssi_signo]; if (si.ssi_signo == SIGCHLD) { r = process_child(e); if (r < 0) return r; - if (r > 0 || !s) + if (r > 0) continue; - } else - if (!s) - return -EIO; + } + + if (e->signal_sources) + s = e->signal_sources[si.ssi_signo]; + + if (!s) + continue; s->signal.siginfo = si; r = source_set_pending(s, true); @@ -2002,6 +2109,7 @@ static int source_dispatch(sd_event_source *s) { break; case SOURCE_TIME_REALTIME: + case SOURCE_TIME_BOOTTIME: case SOURCE_TIME_MONOTONIC: case SOURCE_TIME_REALTIME_ALARM: case SOURCE_TIME_BOOTTIME_ALARM: @@ -2048,8 +2156,12 @@ static int source_dispatch(sd_event_source *s) { s->dispatching = false; - if (r < 0) - log_debug("Event source %p returned error, disabling: %s", s, strerror(-r)); + if (r < 0) { + if (s->description) + log_debug("Event source '%s' returned error, disabling: %s", s->description, strerror(-r)); + else + log_debug("Event source %p returned error, disabling: %s", s, strerror(-r)); + } if (s->n_ref == 0) source_free(s); @@ -2082,8 +2194,12 @@ static int event_prepare(sd_event *e) { r = s->prepare(s, s->userdata); s->dispatching = false; - if (r < 0) - log_debug("Prepare callback of event source %p returned error, disabling: %s", s, strerror(-r)); + if (r < 0) { + if (s->description) + log_debug("Prepare callback of event source '%s' returned error, disabling: %s", s->description, strerror(-r)); + else + log_debug("Prepare callback of event source %p returned error, disabling: %s", s, strerror(-r)); + } if (s->n_ref == 0) source_free(s); @@ -2175,12 +2291,8 @@ static int process_watchdog(sd_event *e) { return arm_watchdog(e); } -_public_ int sd_event_run(sd_event *e, uint64_t timeout) { - struct epoll_event *ev_queue; - unsigned ev_queue_max; - sd_event_source *p; - int r, i, m; - bool timedout; +_public_ int sd_event_prepare(sd_event *e) { + int r; assert_return(e, -EINVAL); assert_return(!event_pid_changed(e), -ECHILD); @@ -2188,34 +2300,64 @@ _public_ int sd_event_run(sd_event *e, uint64_t timeout) { assert_return(e->state == SD_EVENT_PASSIVE, -EBUSY); if (e->exit_requested) - return dispatch_exit(e); + goto pending; - sd_event_ref(e); e->iteration++; - e->state = SD_EVENT_RUNNING; r = event_prepare(e); if (r < 0) - goto finish; + return r; r = event_arm_timer(e, &e->realtime); if (r < 0) - goto finish; + return r; + + r = event_arm_timer(e, &e->boottime); + if (r < 0) + return r; r = event_arm_timer(e, &e->monotonic); if (r < 0) - goto finish; + return r; r = event_arm_timer(e, &e->realtime_alarm); if (r < 0) - goto finish; + return r; r = event_arm_timer(e, &e->boottime_alarm); if (r < 0) - goto finish; + return r; if (event_next_pending(e) || e->need_process_child) - timeout = 0; + goto pending; + + e->state = SD_EVENT_PREPARED; + + return 0; + +pending: + e->state = SD_EVENT_PREPARED; + r = sd_event_wait(e, 0); + if (r == 0) + e->state = SD_EVENT_PREPARED; + + return r; +} + +_public_ int sd_event_wait(sd_event *e, uint64_t timeout) { + struct epoll_event *ev_queue; + unsigned ev_queue_max; + int r, m, i; + + assert_return(e, -EINVAL); + assert_return(!event_pid_changed(e), -ECHILD); + assert_return(e->state != SD_EVENT_FINISHED, -ESTALE); + assert_return(e->state == SD_EVENT_PREPARED, -EBUSY); + + if (e->exit_requested) { + e->state = SD_EVENT_PENDING; + return 1; + } ev_queue_max = CLAMP(e->n_sources, 1U, EPOLL_QUEUE_MAX); ev_queue = newa(struct epoll_event, ev_queue_max); @@ -2223,12 +2365,16 @@ _public_ int sd_event_run(sd_event *e, uint64_t timeout) { m = epoll_wait(e->epoll_fd, ev_queue, ev_queue_max, timeout == (uint64_t) -1 ? -1 : (int) ((timeout + USEC_PER_MSEC - 1) / USEC_PER_MSEC)); if (m < 0) { - r = errno == EAGAIN || errno == EINTR ? 1 : -errno; + if (errno == EINTR) { + e->state = SD_EVENT_PENDING; + return 1; + } + + r = -errno; + goto finish; } - timedout = m == 0; - dual_timestamp_get(&e->timestamp); e->timestamp_boottime = now(CLOCK_BOOTTIME); @@ -2236,6 +2382,8 @@ _public_ int sd_event_run(sd_event *e, uint64_t timeout) { if (ev_queue[i].data.ptr == INT_TO_PTR(SOURCE_TIME_REALTIME)) r = flush_timer(e, e->realtime.fd, ev_queue[i].events, &e->realtime.next); + else if (ev_queue[i].data.ptr == INT_TO_PTR(SOURCE_TIME_BOOTTIME)) + r = flush_timer(e, e->boottime.fd, ev_queue[i].events, &e->boottime.next); else if (ev_queue[i].data.ptr == INT_TO_PTR(SOURCE_TIME_MONOTONIC)) r = flush_timer(e, e->monotonic.fd, ev_queue[i].events, &e->monotonic.next); else if (ev_queue[i].data.ptr == INT_TO_PTR(SOURCE_TIME_REALTIME_ALARM)) @@ -2261,6 +2409,10 @@ _public_ int sd_event_run(sd_event *e, uint64_t timeout) { if (r < 0) goto finish; + r = process_timer(e, e->timestamp_boottime, &e->boottime); + if (r < 0) + goto finish; + r = process_timer(e, e->timestamp.monotonic, &e->monotonic); if (r < 0) goto finish; @@ -2279,21 +2431,71 @@ _public_ int sd_event_run(sd_event *e, uint64_t timeout) { goto finish; } - p = event_next_pending(e); - if (!p) { - r = !timedout; - goto finish; + if (event_next_pending(e)) { + e->state = SD_EVENT_PENDING; + + return 1; } - r = source_dispatch(p); + r = 0; finish: e->state = SD_EVENT_PASSIVE; - sd_event_unref(e); return r; } +_public_ int sd_event_dispatch(sd_event *e) { + sd_event_source *p; + int r; + + assert_return(e, -EINVAL); + assert_return(!event_pid_changed(e), -ECHILD); + assert_return(e->state != SD_EVENT_FINISHED, -ESTALE); + assert_return(e->state == SD_EVENT_PENDING, -EBUSY); + + if (e->exit_requested) + return dispatch_exit(e); + + p = event_next_pending(e); + if (p) { + sd_event_ref(e); + + e->state = SD_EVENT_RUNNING; + r = source_dispatch(p); + e->state = SD_EVENT_PASSIVE; + + sd_event_unref(e); + + return r; + } + + e->state = SD_EVENT_PASSIVE; + + return 1; +} + +_public_ int sd_event_run(sd_event *e, uint64_t timeout) { + int r; + + assert_return(e, -EINVAL); + assert_return(!event_pid_changed(e), -ECHILD); + assert_return(e->state != SD_EVENT_FINISHED, -ESTALE); + assert_return(e->state == SD_EVENT_PASSIVE, -EBUSY); + + r = sd_event_prepare(e); + if (r > 0) + return sd_event_dispatch(e); + else if (r < 0) + return r; + + r = sd_event_wait(e, timeout); + if (r > 0) + return sd_event_dispatch(e); + else + return r; +} + _public_ int sd_event_loop(sd_event *e) { int r; @@ -2316,6 +2518,14 @@ finish: return r; } +_public_ int sd_event_get_fd(sd_event *e) { + + assert_return(e, -EINVAL); + assert_return(!event_pid_changed(e), -ECHILD); + + return e->epoll_fd; +} + _public_ int sd_event_get_state(sd_event *e) { assert_return(e, -EINVAL); assert_return(!event_pid_changed(e), -ECHILD); @@ -2366,6 +2576,7 @@ _public_ int sd_event_now(sd_event *e, clockid_t clock, uint64_t *usec) { *usec = e->timestamp.monotonic; break; + case CLOCK_BOOTTIME: case CLOCK_BOOTTIME_ALARM: *usec = e->timestamp_boottime; break;