int main (int argc, char **argv)
{
const char *error_string;
struct totem_config totem_config;
hdb_handle_t objdb_handle;
hdb_handle_t config_handle;
unsigned int config_version = 0;
void *objdb_p;
struct config_iface_ver0 *config;
void *config_p;
const char *config_iface_init;
char *config_iface;
char *iface;
char *strtok_save_pt;
int res, ch;
int background, setprio;
struct stat stat_out;
char corosync_lib_dir[PATH_MAX];
hdb_handle_t object_runtime_handle;
#if defined(HAVE_PTHREAD_SPIN_LOCK)
pthread_spin_init (&serialize_spin, 0);
#endif
/* default configuration
*/
background = 1;
setprio = 1;
while ((ch = getopt (argc, argv, "fpv")) != EOF) {
switch (ch) {
case 'f':
background = 0;
logsys_config_mode_set (NULL, LOGSYS_MODE_OUTPUT_STDERR|LOGSYS_MODE_THREADED|LOGSYS_MODE_FORK);
break;
case 'p':
setprio = 0;
break;
case 'v':
printf ("Corosync Cluster Engine, version '%s' SVN revision '%s'\n", VERSION, SVN_REVISION);
printf ("Copyright (c) 2006-2009 Red Hat, Inc.\n");
return EXIT_SUCCESS;
break;
default:
fprintf(stderr, \
"usage:\n"\
" -f : Start application in foreground.\n"\
" -p : Do not set process priority. \n"\
" -v : Display version and SVN revision of Corosync and exit.\n");
return EXIT_FAILURE;
}
}
/*
* Set round robin realtime scheduling with priority 99
* Lock all memory to avoid page faults which may interrupt
* application healthchecking
*/
if (setprio) {
corosync_setscheduler ();
}
corosync_mlockall ();
log_printf (LOGSYS_LEVEL_NOTICE, "Corosync Cluster Engine ('%s'): started and ready to provide service.\n", VERSION);
log_printf (LOGSYS_LEVEL_INFO, "Corosync built-in features:" PACKAGE_FEATURES "\n");
(void)signal (SIGINT, sigintr_handler);
(void)signal (SIGUSR2, sigusr2_handler);
(void)signal (SIGSEGV, sigsegv_handler);
(void)signal (SIGABRT, sigabrt_handler);
(void)signal (SIGQUIT, sigquit_handler);
(void)signal (SIGTERM, sigterm_handler);
#if MSG_NOSIGNAL != 0
(void)signal (SIGPIPE, SIG_IGN);
#endif
/*
* Load the object database interface
*/
res = lcr_ifact_reference (
&objdb_handle,
"objdb",
0,
&objdb_p,
0);
if (res == -1) {
log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't open configuration object database component.\n");
corosync_exit_error (AIS_DONE_OBJDB);
}
objdb = (struct objdb_iface_ver0 *)objdb_p;
objdb->objdb_init ();
/*
* Initialize the corosync_api_v1 definition
*/
apidef_init (objdb);
api = apidef_get ();
num_config_modules = 0;
/*
* Bootstrap in the default configuration parser or use
* the corosync default built in parser if the configuration parser
* isn't overridden
*/
config_iface_init = getenv("COROSYNC_DEFAULT_CONFIG_IFACE");
if (!config_iface_init) {
config_iface_init = "corosync_parser";
}
/* Make a copy so we can deface it with strtok */
if ((config_iface = strdup(config_iface_init)) == NULL) {
log_printf (LOGSYS_LEVEL_ERROR, "exhausted virtual memory");
corosync_exit_error (AIS_DONE_OBJDB);
}
iface = strtok_r(config_iface, ":", &strtok_save_pt);
while (iface)
{
res = lcr_ifact_reference (
&config_handle,
iface,
config_version,
&config_p,
0);
config = (struct config_iface_ver0 *)config_p;
if (res == -1) {
log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't open configuration component '%s'\n", iface);
corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
}
res = config->config_readconfig(objdb, &error_string);
if (res == -1) {
log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
}
log_printf (LOGSYS_LEVEL_NOTICE, "%s", error_string);
config_modules[num_config_modules++] = config;
iface = strtok_r(NULL, ":", &strtok_save_pt);
}
free(config_iface);
res = corosync_main_config_read (objdb, &error_string);
if (res == -1) {
/*
* if we are here, we _must_ flush the logsys queue
* and try to inform that we couldn't read the config.
* this is a desperate attempt before certain death
* and there is no guarantee that we can print to stderr
* nor that logsys is sending the messages where we expect.
*/
log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
fprintf(stderr, "%s", error_string);
syslog (LOGSYS_LEVEL_ERROR, "%s", error_string);
corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
}
/*
* Make sure required directory is present
*/
sprintf (corosync_lib_dir, "%s/lib/corosync", LOCALSTATEDIR);
res = stat (corosync_lib_dir, &stat_out);
if ((res == -1) || (res == 0 && !S_ISDIR(stat_out.st_mode))) {
log_printf (LOGSYS_LEVEL_ERROR, "Required directory not present %s. Please create it.\n", corosync_lib_dir);
corosync_exit_error (AIS_DONE_DIR_NOT_PRESENT);
}
res = totem_config_read (objdb, &totem_config, &error_string);
if (res == -1) {
log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
}
res = totem_config_keyread (objdb, &totem_config, &error_string);
if (res == -1) {
log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
}
res = totem_config_validate (&totem_config, &error_string);
if (res == -1) {
log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
}
totem_config.totem_logging_configuration = totem_logging_configuration;
totem_config.totem_logging_configuration.log_subsys_id =
_logsys_subsys_create ("TOTEM");
if (totem_config.totem_logging_configuration.log_subsys_id < 0) {
log_printf (LOGSYS_LEVEL_ERROR,
"Unable to initialize TOTEM logging subsystem\n");
corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
}
totem_config.totem_logging_configuration.log_level_security = LOGSYS_LEVEL_WARNING;
totem_config.totem_logging_configuration.log_level_error = LOGSYS_LEVEL_ERROR;
totem_config.totem_logging_configuration.log_level_warning = LOGSYS_LEVEL_WARNING;
totem_config.totem_logging_configuration.log_level_notice = LOGSYS_LEVEL_NOTICE;
totem_config.totem_logging_configuration.log_level_debug = LOGSYS_LEVEL_DEBUG;
totem_config.totem_logging_configuration.log_printf = _logsys_log_printf;
res = corosync_main_config_compatibility_read (objdb,
&minimum_sync_mode,
&error_string);
if (res == -1) {
log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
}
res = corosync_main_config_compatibility_read (objdb,
&minimum_sync_mode,
&error_string);
if (res == -1) {
log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
}
/* create the main runtime object */
objdb->object_create (OBJECT_PARENT_HANDLE,
&object_runtime_handle,
"runtime", strlen ("runtime"));
/*
* Now we are fully initialized.
*/
if (background) {
corosync_tty_detach ();
}
logsys_fork_completed();
corosync_timer_init (
serialize_lock,
serialize_unlock,
sched_priority);
corosync_poll_handle = poll_create ();
/*
* Sleep for a while to let other nodes in the cluster
* understand that this node has been away (if it was
* an corosync restart).
*/
// TODO what is this hack for? usleep(totem_config.token_timeout * 2000);
/*
* Create semaphore and start "exit" thread
*/
res = sem_init (&corosync_exit_sem, 0, 0);
if (res != 0) {
log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't create exit thread.\n");
corosync_exit_error (AIS_DONE_FATAL_ERR);
}
res = pthread_create (&corosync_exit_thread, NULL, corosync_exit_thread_handler, NULL);
if (res != 0) {
log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't create exit thread.\n");
corosync_exit_error (AIS_DONE_FATAL_ERR);
}
/*
* if totempg_initialize doesn't have root priveleges, it cannot
* bind to a specific interface. This only matters if
* there is more then one interface in a system, so
* in this case, only a warning is printed
*/
/*
* Join multicast group and setup delivery
* and configuration change functions
*/
totempg_initialize (
corosync_poll_handle,
&totem_config);
totempg_service_ready_register (
main_service_ready);
totempg_groups_initialize (
&corosync_group_handle,
deliver_fn,
confchg_fn);
totempg_groups_join (
corosync_group_handle,
&corosync_group,
1);
/*
* Drop root privleges to user 'ais'
* TODO: Don't really need full root capabilities;
* needed capabilities are:
* CAP_NET_RAW (bindtodevice)
* CAP_SYS_NICE (setscheduler)
* CAP_IPC_LOCK (mlockall)
*/
priv_drop ();
schedwrk_init (
serialize_lock,
serialize_unlock);
ipc_subsys_id = _logsys_subsys_create ("IPC");
if (ipc_subsys_id < 0) {
log_printf (LOGSYS_LEVEL_ERROR,
"Could not initialize IPC logging subsystem\n");
corosync_exit_error (AIS_DONE_INIT_SERVICES);
}
ipc_init_state_v2.log_subsys_id = ipc_subsys_id;
coroipcs_ipc_init_v2 (&ipc_init_state_v2);
/*
* Start main processing loop
*/
poll_run (corosync_poll_handle);
return EXIT_SUCCESS;
}
int main (void) {
unsigned int a_ifact_handle_ver0;
unsigned int b_ifact_handle_ver0;
struct iface *a_iface_ver0;
struct iface *a_iface_ver1;
void *a_iface_ver0_p;
void *a_iface_ver1_p;
unsigned int a_ifact_handle_ver1;
unsigned int b_ifact_handle_ver1;
struct iface *b_iface_ver0;
struct iface *b_iface_ver1;
void *b_iface_ver0_p;
void *b_iface_ver1_p;
unsigned int res;
/*
* Reference version 0 and 1 of A and B interfaces
*/
res = lcr_ifact_reference (
&a_ifact_handle_ver0,
"A_iface1",
0, /* version 0 */
&a_iface_ver0_p,
(void *)0xaaaa0000);
assert (res == 0);
a_iface_ver0 = (struct iface *)a_iface_ver0_p;
res = lcr_ifact_reference (
&b_ifact_handle_ver0,
"B_iface1",
0, /* version 0 */
&b_iface_ver0_p,
(void *)0xbbbb0000);
assert (res == 0);
b_iface_ver0 = (struct iface *)b_iface_ver0_p;
res = lcr_ifact_reference (
&a_ifact_handle_ver1,
"A_iface1",
1, /* version 1 */
&a_iface_ver1_p,
(void *)0xaaaa1111);
assert (res == 0);
a_iface_ver1 = (struct iface *)a_iface_ver0_p;
res = lcr_ifact_reference (
&b_ifact_handle_ver1,
"B_iface1",
1, /* version 1 */
&b_iface_ver1_p,
(void *)0xbbbb1111);
assert (res == 0);
b_iface_ver1 = (struct iface *)b_iface_ver0_p;
a_iface_ver0->func1();
a_iface_ver0->func2();
a_iface_ver0->func3();
lcr_ifact_release (a_ifact_handle_ver0);
a_iface_ver1->func1();
a_iface_ver1->func2();
a_iface_ver1->func3();
lcr_ifact_release (a_ifact_handle_ver1);
b_iface_ver0->func1();
b_iface_ver0->func2();
b_iface_ver0->func3();
lcr_ifact_release (b_ifact_handle_ver0);
b_iface_ver1->func1();
b_iface_ver1->func2();
b_iface_ver1->func3();
lcr_ifact_release (b_ifact_handle_ver1);
return (0);
}
