Beispiel #1
0
int API
main ()
{
    struct routeup rtc;
    if (routeup_setup (&rtc))
        return 1;
    while (!routeup_once (&rtc, 0))
        printf ("n\n");
    routeup_teardown (&rtc);
    return 0;
}
Beispiel #2
0
struct event *event_routeup()
{
  struct routeup *rtup = malloc(sizeof *rtup);
  struct event *e;
  if (!rtup)
    return NULL;
  if (!routeup_setup(rtup))
  {
    perror ("event_routeup routeup_setup() failed");
    free(rtup);
    return NULL;
  }
  e = _event_subproc(_routeup, (void*)rtup);
  /* free it in the parent only */
  routeup_teardown(rtup);
  if (e)
    e->name = "routeup";
  return e;
}
Beispiel #3
0
int API
main (int argc, char *argv[], char *envp[])
{
  struct routeup rtc;
  int hwclock_fd = -1;
  time_t last_success = 0;
  struct opts opts;
  int wait_time = 0;

  set_conf_defaults(&opts);
  parse_argv(&opts, argc, argv);
  check_conf(&opts);
  load_conf(&opts);
  check_conf(&opts);
  if (!opts.sources)
    add_source_to_conf(&opts, DEFAULT_HOST, DEFAULT_PORT, DEFAULT_PROXY);

  /* grab a handle to /dev/rtc for sync_hwclock() */
  if (opts.should_sync_hwclock && (hwclock_fd = open (DEFAULT_RTC_DEVICE, O_RDONLY)) < 0)
    {
      pinfo ("can't open hwclock fd");
      opts.should_sync_hwclock = 0;
    }

  /* set up a netlink context if we need one */
  if (opts.should_netlink && routeup_setup (&rtc))
    pfatal ("Can't open netlink socket");

  if (!is_sane_time (time (NULL)))
    {
      struct timeval tv = { 0, 0 };
      /*
       * If the time is before the build timestamp, we're probably on
       * a system with a broken rtc. Try loading the timestamp off
       * disk.
       */
      tv.tv_sec = RECENT_COMPILE_DATE;
      if (opts.should_load_disk &&
    load_disk_timestamp (timestamp_path, &tv.tv_sec))
  pinfo ("can't load disk timestamp");
      if (!opts.dry_run && settimeofday (&tv, NULL))
  pfatal ("settimeofday() failed");
      dbus_announce();
      /*
       * don't save here - we either just loaded this time or used the
       * default time, and neither of those are good to save
       */
      sync_and_save (hwclock_fd, opts.should_sync_hwclock, 0);
    }

  /* register a signal handler to save time at shutdown */
  if (opts.should_save_disk)
    signal (SIGTERM, sigterm_handler);

  /*
   * Try once right away. If we fail, wait for a route to appear, then try
   * for a while; repeat whenever another route appears. Try until we
   * succeed.
   */
  if (!tlsdate (&opts, envp)) {
    last_success = time (NULL);
    sync_and_save (hwclock_fd, opts.should_sync_hwclock, opts.should_save_disk);
    dbus_announce();
  }

  /*
   * Loop until we catch a fatal signal or routeup_once() fails. We run
   * tlsdate at least once a day, but possibly as often as routes come up;
   * this should handle cases like a VPN being brought up and down
   * periodically.
   */
  wait_time = add_jitter(opts.steady_state_interval, opts.jitter);
  while (wait_for_event (&rtc, opts.should_netlink, wait_time) >= 0)
    {
      /*
       * If a route just came up, run tlsdate; if it
       * succeeded, then we're good and can keep time locally
       * from now on.
       */
      int i;
      int backoff = opts.wait_between_tries;
      wait_time = add_jitter(opts.steady_state_interval, opts.jitter);
      if (time (NULL) - last_success < opts.min_steady_state_interval)
        continue;
      for (i = 0; i < opts.max_tries && tlsdate (&opts, envp); ++i) {
        if (backoff < 1)
          fatal ("backoff too small? %d", backoff);
        sleep (backoff);
        if (backoff < MAX_SANE_BACKOFF)
          backoff *= 2;
      }
      if (i != opts.max_tries)
      {
        last_success = time (NULL);
        info ("tlsdate succeeded");
        sync_and_save (hwclock_fd, opts.should_sync_hwclock, opts.should_save_disk);
        dbus_announce();
      }
    }

  return 1;
}