/* run_backup - this is the backup controller, it should run in standby
* mode, assuming control when the primary controller stops responding */
void run_backup(slurm_trigger_callbacks_t *callbacks)
{
int i;
uint32_t trigger_type;
time_t last_ping = 0;
pthread_attr_t thread_attr_sig, thread_attr_rpc;
slurmctld_lock_t config_read_lock = {
READ_LOCK, NO_LOCK, NO_LOCK, NO_LOCK };
slurmctld_lock_t config_write_lock = {
WRITE_LOCK, WRITE_LOCK, WRITE_LOCK, WRITE_LOCK };
info("slurmctld running in background mode");
takeover = false;
last_controller_response = time(NULL);
/* default: don't resume if shutdown */
slurmctld_config.resume_backup = false;
if (xsignal_block(backup_sigarray) < 0)
error("Unable to block signals");
/*
* create attached thread to process RPCs
*/
slurm_attr_init(&thread_attr_rpc);
while (pthread_create(&slurmctld_config.thread_id_rpc,
&thread_attr_rpc, _background_rpc_mgr, NULL)) {
error("pthread_create error %m");
sleep(1);
}
slurm_attr_destroy(&thread_attr_rpc);
/*
* create attached thread for signal handling
*/
slurm_attr_init(&thread_attr_sig);
while (pthread_create(&slurmctld_config.thread_id_sig,
&thread_attr_sig, _background_signal_hand,
NULL)) {
error("pthread_create %m");
sleep(1);
}
slurm_attr_destroy(&thread_attr_sig);
trigger_type = TRIGGER_TYPE_BU_CTLD_RES_OP;
_trigger_slurmctld_event(trigger_type);
for (i = 0; ((i < 5) && (slurmctld_config.shutdown_time == 0)); i++) {
sleep(1); /* Give the primary slurmctld set-up time */
}
/* repeatedly ping ControlMachine */
while (slurmctld_config.shutdown_time == 0) {
sleep(1);
/* Lock of slurmctld_conf below not important */
if (slurmctld_conf.slurmctld_timeout &&
(takeover == false) &&
(difftime(time(NULL), last_ping) <
(slurmctld_conf.slurmctld_timeout / 3)))
continue;
last_ping = time(NULL);
if (_ping_controller() == 0)
last_controller_response = time(NULL);
else if (takeover) {
/* in takeover mode, take control as soon as */
/* primary no longer respond */
break;
} else {
uint32_t timeout;
lock_slurmctld(config_read_lock);
timeout = slurmctld_conf.slurmctld_timeout;
unlock_slurmctld(config_read_lock);
if (difftime(time(NULL), last_controller_response) >
timeout) {
break;
}
}
}
if (slurmctld_config.shutdown_time != 0) {
/* Since pidfile is created as user root (its owner is
* changed to SlurmUser) SlurmUser may not be able to
* remove it, so this is not necessarily an error.
* No longer need slurmctld_conf lock after above join. */
if (unlink(slurmctld_conf.slurmctld_pidfile) < 0)
verbose("Unable to remove pidfile '%s': %m",
slurmctld_conf.slurmctld_pidfile);
info("BackupController terminating");
pthread_join(slurmctld_config.thread_id_sig, NULL);
log_fini();
if (dump_core)
abort();
else
exit(0);
}
lock_slurmctld(config_read_lock);
error("ControlMachine %s not responding, "
"BackupController %s taking over",
slurmctld_conf.control_machine,
slurmctld_conf.backup_controller);
unlock_slurmctld(config_read_lock);
backup_slurmctld_restart();
trigger_primary_ctld_fail();
trigger_backup_ctld_as_ctrl();
pthread_kill(slurmctld_config.thread_id_sig, SIGTERM);
pthread_join(slurmctld_config.thread_id_sig, NULL);
pthread_join(slurmctld_config.thread_id_rpc, NULL);
/* The job list needs to be freed before we run
* ctld_assoc_mgr_init, it should be empty here in the first place.
*/
lock_slurmctld(config_write_lock);
job_fini();
init_job_conf();
unlock_slurmctld(config_write_lock);
ctld_assoc_mgr_init(callbacks);
/* clear old state and read new state */
lock_slurmctld(config_write_lock);
if (switch_g_restore(slurmctld_conf.state_save_location, true)) {
error("failed to restore switch state");
abort();
}
if (read_slurm_conf(2, false)) { /* Recover all state */
error("Unable to recover slurm state");
abort();
}
slurmctld_config.shutdown_time = (time_t) 0;
unlock_slurmctld(config_write_lock);
select_g_select_nodeinfo_set_all();
return;
}
int main(int argc, char **argv) {
time_t now;
/* Initialise route, runq and job classes */
now = time(NULL);
route_init(NULL, 0);
route_register(&rt_filea_method);
route_register(&rt_fileov_method);
route_register(&rt_stdin_method);
route_register(&rt_stdout_method);
route_register(&rt_stderr_method);
if ( ! elog_init(1, "job test", NULL))
elog_die(FATAL, "didn't initialise elog\n");
sig_init();
callback_init();
runq_init(now);
meth_init();
job_init();
/* Test should fail due to incorrect method */
elog_printf(DEBUG, "Expect a complaint! -> ");
if (job_add(5, 5, 0, 1, "test1a1", "internal_test", "stdout",
"stderr", 100, NULL, "echo \"Hello, world\"") != -1)
{
elog_die(FATAL, "[1a] Shouldn't be able to add\n");
}
/* Single test in five seconds, never to run */
if (job_add(5, 5, 0, 1, "test1a2", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1a] Can't add\n");
}
/* Attention: some white box testing */
itree_first(runq_event);
if (itree_getkey(runq_event) != now+5) {
elog_die(FATAL, "[1a] Queued at an incorrect time\n");
}
job_clear();
if (!itree_empty(runq_event) || !itree_empty(runq_tab)) {
elog_die(FATAL,
"[1a] Trees not emptied. runq_events=%d, runq_tab=%d\n",
itree_n(runq_event), itree_n(runq_tab));
}
now = time(NULL);
/* Two tests both in five seconds, never to run */
if (job_add(5, 5, 0, 1, "test1b1", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1b] Can't add first\n");
}
if (job_add(5, 5, 0, 1, "test1b2", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1b] Can't add second\n");
}
itree_first(runq_event);
if (itree_getkey(runq_event) != now+5) {
elog_die(FATAL, "[1b] First queued at an incorrect time\n");
}
itree_next(runq_event);
if (itree_getkey(runq_event) != now+5) {
elog_die(FATAL, "[1b] Second queued at an incorrect time\n");
}
job_clear();
if (!itree_empty(runq_event) || !itree_empty(runq_tab)) {
elog_die(FATAL,
"[1b] Trees not emptied. runq_events=%d, runq_tab=%d\n",
itree_n(runq_event), itree_n(runq_tab));
}
now = time(NULL);
/* Two tests one in five seconds, the other in six, never to run */
if (job_add(6, 6, 0, 1, "test1c1", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1c] Can't add first\n");
}
if (job_add(now+5, 5, 0, 1, "test1c2", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1c] Can't add second\n");
}
itree_first(runq_event);
if (itree_getkey(runq_event) != now+5) {
elog_die(FATAL, "[1c] First queued at an incorrect time\n");
}
itree_next(runq_event);
if (itree_getkey(runq_event) != now+6) {
elog_die(FATAL, "[1c] Second queued at an incorrect time\n");
}
job_clear();
if (!itree_empty(runq_event) || !itree_empty(runq_tab)) {
elog_die(FATAL,
"[1c] Trees not emptied. runq_events=%d, runq_tab=%d\n",
itree_n(runq_event), itree_n(runq_tab));
}
now = time(NULL);
/* Continuous single test supposed to start two seconds ago,
* next run in three; never to run */
if (job_add(-2, 5, 0, 0, "test1d1", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1d] Can't add\n");
}
itree_first(runq_event);
if (itree_getkey(runq_event) != now+3) {
elog_die(FATAL,
"[1d] Event queued at an incorrect time: bad=%d good=%ld\n",
itree_getkey(runq_event), now+3);
}
job_clear();
if (runq_nsched() > 0) {
elog_die(FATAL, "[1d] Still active work scheduled. runq_events=%d, "
"runq_tab=%d runq_nsched()=%d\n",
itree_n(runq_event), itree_n(runq_tab), runq_nsched());
runq_dump();
}
now = time(NULL);
/* Two continous tests, starting two seconds ago, next next run in four;
* never to run */
if (job_add(-2, 6, 0, 0, "test1e1", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1e] Can't add first\n");
}
if (job_add(-3, 5, 0, 0, "test1e2", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1e] Can't add second\n");
}
itree_first(runq_event);
while (((struct runq_work*) itree_get(runq_event))->expired)
itree_next(runq_event);
if (itree_getkey(runq_event) != now+2) {
elog_die(FATAL, "[1e] First queued at an incorrect time\n");
}
itree_next(runq_event);
while (((struct runq_work*) itree_get(runq_event))->expired)
itree_next(runq_event);
if (itree_getkey(runq_event) != now+4) {
elog_die(FATAL, "[1e] Second queued at an incorrect time\n");
}
job_clear();
if (runq_nsched() > 0) {
elog_die(FATAL, "[1e] Still active work scheduled. runq_events=%d, "
"runq_tab=%d runq_nsched()=%d\n",
itree_n(runq_event), itree_n(runq_tab), runq_nsched());
runq_dump();
}
now = time(NULL);
/* Two 5 run jobs, scheduled to start 10 seconds ago, with periods
* of 5 and 6 seconds; never to run */
if (job_add(-10, 6, 0, 5, "test1f1", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1f] Can't add first\n");
}
if (job_add(-10, 5, 0, 5, "test1f2", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1f] Can't add second\n");
}
itree_first(runq_event);
while (((struct runq_work*) itree_get(runq_event))->expired)
itree_next(runq_event);
if (itree_getkey(runq_event) != now+2) {
elog_die(FATAL, "[1f] First queued at an incorrect time\n");
}
itree_next(runq_event);
while (((struct runq_work*) itree_get(runq_event))->expired)
itree_next(runq_event);
if (itree_getkey(runq_event) != now+5) {
elog_die(FATAL, "[1f] Second queued at an incorrect time\n");
}
job_clear();
if (runq_nsched() > 0) {
elog_die(FATAL, "[1f] Still active work scheduled. runq_events=%d, "
"runq_tab=%d runq_nsched()=%d\n",
itree_n(runq_event), itree_n(runq_tab), runq_nsched());
runq_dump();
}
now = time(NULL);
/* Two 5 run jobs, scheduled to start 100 seconds ago, with periods
* of 5 and 6 seconds; they should never be scheduled */
if (job_add(-100, 6, 0, 5, "test1g1", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1g] Can't add first\n");
}
if (job_add(-100, 5, 0, 5, "test1g2", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1g] Can't add second\n");
}
if (runq_nsched() > 0) {
elog_die(FATAL, "[1g] Still active work scheduled. runq_events=%d, "
"runq_tab=%d runq_nsched()=%d\n",
itree_n(runq_event), itree_n(runq_tab), runq_nsched());
runq_dump();
}
job_clear();
now = time(NULL);
/* Two five run tests, starting at different times in the past,
* five runs each wittth different periods; they should both
* run now */
if (job_add(-24, 6, 0, 5, "test1h1", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1h] Can't add first\n");
}
if (job_add(-20, 5, 0, 5, "test1h2", "internal_test", "stdout",
"stderr", 100, "exec", "echo \"Hello, world\"") == -1)
{
elog_die(FATAL, "[1h] Can't add second\n");
}
if (runq_nsched() != 2) {
elog_die(FATAL, "[1h] Two jobs should be scheduled not %d\n",
runq_nsched());
runq_dump();
}
sig_on();
sleep(6); /* let it run */
sleep(1); /* let it run */
sleep(1); /* let it run */
sleep(1); /* let it run */
sig_off();
if (runq_nsched() > 0) {
elog_die(FATAL, "[1h] Still active work scheduled. runq_events=%d, "
"runq_tab=%d runq_nsched()=%d\n",
itree_n(runq_event), itree_n(runq_tab), runq_nsched());
runq_dump();
}
job_clear();
#if 0
/* check all tables/lists are empty */
if (!itree_empty(runq_event) || !itree_empty(runq_tab)) {
elog_die(FATAL, "[1i] Still entries in tables. runq_events=%d, "
"runq_tab=%d runq_nsched()=%d\n",
itree_n(runq_event), itree_n(runq_tab), runq_nsched());
runq_dump();
}
#endif
job_fini();
meth_fini();
runq_fini();
elog_fini();
route_fini();
callback_fini();
printf("%s: tests finished\n", argv[0]);
exit(0);
}
