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	diff --git a/daemons/controld/controld_control.c b/daemons/controld/controld_control.c
	index ffc62a01ac..b78bf9c3e7 100644
	--- a/daemons/controld/controld_control.c
	+++ b/daemons/controld/controld_control.c
	@@ -1,857 +1,861 @@
	/*
	* Copyright 2004-2023 the Pacemaker project contributors
	*
	* The version control history for this file may have further details.
	*
	* This source code is licensed under the GNU General Public License version 2
	* or later (GPLv2+) WITHOUT ANY WARRANTY.
	*/

	#include <crm_internal.h>

	#include <sys/param.h>
	#include <sys/types.h>
	#include <sys/stat.h>

	#include <crm/crm.h>
	#include <crm/msg_xml.h>
	#include <crm/pengine/rules.h>
	#include <crm/cluster/internal.h>
	#include <crm/cluster/election_internal.h>
	#include <crm/common/ipc_internal.h>

	#include <pacemaker-controld.h>

	static qb_ipcs_service_t *ipcs = NULL;

	static crm_trigger_t *config_read_trigger = NULL;

	#if SUPPORT_COROSYNC
	extern gboolean crm_connect_corosync(crm_cluster_t * cluster);
	#endif

	void crm_shutdown(int nsig);
	static gboolean crm_read_options(gpointer user_data);

	/* A_HA_CONNECT */
	void
	do_ha_control(long long action,
	enum crmd_fsa_cause cause,
	enum crmd_fsa_state cur_state,
	enum crmd_fsa_input current_input, fsa_data_t * msg_data)
	{
	gboolean registered = FALSE;
	static crm_cluster_t *cluster = NULL;

	if (cluster == NULL) {
	cluster = pcmk_cluster_new();
	}

	if (action & A_HA_DISCONNECT) {
	crm_cluster_disconnect(cluster);
	crm_info("Disconnected from the cluster");

	controld_set_fsa_input_flags(R_HA_DISCONNECTED);
	}

	if (action & A_HA_CONNECT) {
	crm_set_status_callback(&peer_update_callback);
	crm_set_autoreap(FALSE);

	#if SUPPORT_COROSYNC
	if (is_corosync_cluster()) {
	registered = crm_connect_corosync(cluster);
	}
	#endif // SUPPORT_COROSYNC

	if (registered) {
	controld_election_init(cluster->uname);
	controld_globals.our_nodename = cluster->uname;
	controld_globals.our_uuid = cluster->uuid;
	if(cluster->uuid == NULL) {
	crm_err("Could not obtain local uuid");
	registered = FALSE;
	}
	}

	if (!registered) {
	controld_set_fsa_input_flags(R_HA_DISCONNECTED);
	register_fsa_error(C_FSA_INTERNAL, I_ERROR, NULL);
	return;
	}

	populate_cib_nodes(node_update_none, __func__);
	controld_clear_fsa_input_flags(R_HA_DISCONNECTED);
	crm_info("Connected to the cluster");
	}

	if (action & ~(A_HA_CONNECT \| A_HA_DISCONNECT)) {
	crm_err("Unexpected action %s in %s", fsa_action2string(action),
	__func__);
	}
	}

	/* A_SHUTDOWN */
	void
	do_shutdown(long long action,
	enum crmd_fsa_cause cause,
	enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data)
	{
	/* just in case */
	controld_set_fsa_input_flags(R_SHUTDOWN);
	controld_disconnect_fencer(FALSE);
	}

	/* A_SHUTDOWN_REQ */
	void
	do_shutdown_req(long long action,
	enum crmd_fsa_cause cause,
	enum crmd_fsa_state cur_state,
	enum crmd_fsa_input current_input, fsa_data_t * msg_data)
	{
	xmlNode *msg = NULL;

	controld_set_fsa_input_flags(R_SHUTDOWN);
	//controld_set_fsa_input_flags(R_STAYDOWN);
	crm_info("Sending shutdown request to all peers (DC is %s)",
	pcmk__s(controld_globals.dc_name, "not set"));
	msg = create_request(CRM_OP_SHUTDOWN_REQ, NULL, NULL, CRM_SYSTEM_CRMD, CRM_SYSTEM_CRMD, NULL);

	if (send_cluster_message(NULL, crm_msg_crmd, msg, TRUE) == FALSE) {
	register_fsa_error(C_FSA_INTERNAL, I_ERROR, NULL);
	}
	free_xml(msg);
	}

	void
	crmd_fast_exit(crm_exit_t exit_code)
	{
	if (pcmk_is_set(controld_globals.fsa_input_register, R_STAYDOWN)) {
	crm_warn("Inhibiting respawn "CRM_XS" remapping exit code %d to %d",
	exit_code, CRM_EX_FATAL);
	exit_code = CRM_EX_FATAL;

	} else if ((exit_code == CRM_EX_OK)
	&& pcmk_is_set(controld_globals.fsa_input_register,
	R_IN_RECOVERY)) {
	crm_err("Could not recover from internal error");
	exit_code = CRM_EX_ERROR;
	}

	if (controld_globals.logger_out != NULL) {
	controld_globals.logger_out->finish(controld_globals.logger_out,
	exit_code, true, NULL);
	pcmk__output_free(controld_globals.logger_out);
	controld_globals.logger_out = NULL;
	}

	crm_exit(exit_code);
	}

	crm_exit_t
	crmd_exit(crm_exit_t exit_code)
	{
	GMainLoop *mloop = controld_globals.mainloop;

	static bool in_progress = FALSE;

	if (in_progress && (exit_code == CRM_EX_OK)) {
	crm_debug("Exit is already in progress");
	return exit_code;

	} else if(in_progress) {
	crm_notice("Error during shutdown process, exiting now with status %d (%s)",
	exit_code, crm_exit_str(exit_code));
	crm_write_blackbox(SIGTRAP, NULL);
	crmd_fast_exit(exit_code);
	}

	in_progress = TRUE;
	crm_trace("Preparing to exit with status %d (%s)",
	exit_code, crm_exit_str(exit_code));

	/* Suppress secondary errors resulting from us disconnecting everything */
	controld_set_fsa_input_flags(R_HA_DISCONNECTED);

	/* Close all IPC servers and clients to ensure any and all shared memory files are cleaned up */

	if(ipcs) {
	crm_trace("Closing IPC server");
	mainloop_del_ipc_server(ipcs);
	ipcs = NULL;
	}

	controld_close_attrd_ipc();
	controld_shutdown_schedulerd_ipc();
	controld_disconnect_fencer(TRUE);

	if ((exit_code == CRM_EX_OK) && (controld_globals.mainloop == NULL)) {
	crm_debug("No mainloop detected");
	exit_code = CRM_EX_ERROR;
	}

	/* On an error, just get out.
	*
	* Otherwise, make the effort to have mainloop exit gracefully so
	* that it (mostly) cleans up after itself and valgrind has less
	* to report on - allowing real errors stand out
	*/
	if (exit_code != CRM_EX_OK) {
	crm_notice("Forcing immediate exit with status %d (%s)",
	exit_code, crm_exit_str(exit_code));
	crm_write_blackbox(SIGTRAP, NULL);
	crmd_fast_exit(exit_code);
	}

	/* Clean up as much memory as possible for valgrind */

	for (GList *iter = controld_globals.fsa_message_queue; iter != NULL;
	iter = iter->next) {
	fsa_data_t fsa_data = (fsa_data_t ) iter->data;

	crm_info("Dropping %s: [ state=%s cause=%s origin=%s ]",
	fsa_input2string(fsa_data->fsa_input),
	fsa_state2string(controld_globals.fsa_state),
	fsa_cause2string(fsa_data->fsa_cause), fsa_data->origin);
	delete_fsa_input(fsa_data);
	}

	controld_clear_fsa_input_flags(R_MEMBERSHIP);

	g_list_free(controld_globals.fsa_message_queue);
	controld_globals.fsa_message_queue = NULL;

	controld_election_fini();

	/* Tear down the CIB manager connection, but don't free it yet -- it could
	* be used when we drain the mainloop later.
	*/

	controld_disconnect_cib_manager();

	verify_stopped(controld_globals.fsa_state, LOG_WARNING);
	controld_clear_fsa_input_flags(R_LRM_CONNECTED);
	lrm_state_destroy_all();

	mainloop_destroy_trigger(config_read_trigger);
	config_read_trigger = NULL;

	controld_destroy_fsa_trigger();
	controld_destroy_transition_trigger();

	pcmk__client_cleanup();
	crm_peer_destroy();

	controld_free_fsa_timers();
	te_cleanup_stonith_history_sync(NULL, TRUE);
	controld_free_sched_timer();

	free(controld_globals.our_nodename);
	controld_globals.our_nodename = NULL;

	free(controld_globals.our_uuid);
	controld_globals.our_uuid = NULL;

	free(controld_globals.dc_name);
	controld_globals.dc_name = NULL;

	free(controld_globals.dc_version);
	controld_globals.dc_version = NULL;

	free(controld_globals.cluster_name);
	controld_globals.cluster_name = NULL;

	free(controld_globals.te_uuid);
	controld_globals.te_uuid = NULL;

	free_max_generation();
	controld_destroy_cib_replacements_table();
	controld_destroy_failed_sync_table();
	controld_destroy_outside_events_table();

	mainloop_destroy_signal(SIGPIPE);
	mainloop_destroy_signal(SIGUSR1);
	mainloop_destroy_signal(SIGTERM);
	mainloop_destroy_signal(SIGTRAP);
	/* leave SIGCHLD engaged as we might still want to drain some service-actions */

	if (mloop) {
	GMainContext *ctx = g_main_loop_get_context(controld_globals.mainloop);

	/* Don't re-enter this block */
	controld_globals.mainloop = NULL;

	/* no signals on final draining anymore */
	mainloop_destroy_signal(SIGCHLD);

	crm_trace("Draining mainloop %d %d", g_main_loop_is_running(mloop), g_main_context_pending(ctx));

	{
	int lpc = 0;

	while((g_main_context_pending(ctx) && lpc < 10)) {
	lpc++;
	crm_trace("Iteration %d", lpc);
	g_main_context_dispatch(ctx);
	}
	}

	crm_trace("Closing mainloop %d %d", g_main_loop_is_running(mloop), g_main_context_pending(ctx));
	g_main_loop_quit(mloop);

	/* Won't do anything yet, since we're inside it now */
	g_main_loop_unref(mloop);
	} else {
	mainloop_destroy_signal(SIGCHLD);
	}

	cib_delete(controld_globals.cib_conn);
	controld_globals.cib_conn = NULL;

	throttle_fini();

	/* Graceful */
	crm_trace("Done preparing for exit with status %d (%s)",
	exit_code, crm_exit_str(exit_code));
	return exit_code;
	}

	/* A_EXIT_0, A_EXIT_1 */
	void
	do_exit(long long action,
	enum crmd_fsa_cause cause,
	enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data)
	{
	crm_exit_t exit_code = CRM_EX_OK;
	int log_level = LOG_INFO;
	const char *exit_type = "gracefully";

	if (action & A_EXIT_1) {
	log_level = LOG_ERR;
	exit_type = "forcefully";
	exit_code = CRM_EX_ERROR;
	}

	verify_stopped(cur_state, LOG_ERR);
	do_crm_log(log_level, "Performing %s - %s exiting the controller",
	fsa_action2string(action), exit_type);

	crm_info("[%s] stopped (%d)", crm_system_name, exit_code);
	crmd_exit(exit_code);
	}

	static void sigpipe_ignore(int nsig) { return; }

	/* A_STARTUP */
	void
	do_startup(long long action,
	enum crmd_fsa_cause cause,
	enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data)
	{
	crm_debug("Registering Signal Handlers");
	mainloop_add_signal(SIGTERM, crm_shutdown);
	mainloop_add_signal(SIGPIPE, sigpipe_ignore);

	config_read_trigger = mainloop_add_trigger(G_PRIORITY_HIGH,
	crm_read_options, NULL);

	controld_init_fsa_trigger();
	controld_init_transition_trigger();

	crm_debug("Creating CIB manager and executor objects");
	controld_globals.cib_conn = cib_new();

	lrm_state_init_local();
	if (controld_init_fsa_timers() == FALSE) {
	register_fsa_error(C_FSA_INTERNAL, I_ERROR, NULL);
	}
	}

	// \return libqb error code (0 on success, -errno on error)
	static int32_t
	accept_controller_client(qb_ipcs_connection_t *c, uid_t uid, gid_t gid)
	{
	crm_trace("Accepting new IPC client connection");
	if (pcmk__new_client(c, uid, gid) == NULL) {
	return -EIO;
	}
	return 0;
	}

	// \return libqb error code (0 on success, -errno on error)
	static int32_t
	dispatch_controller_ipc(qb_ipcs_connection_t * c, void *data, size_t size)
	{
	uint32_t id = 0;
	uint32_t flags = 0;
	pcmk__client_t *client = pcmk__find_client(c);

	xmlNode *msg = pcmk__client_data2xml(client, data, &id, &flags);

	if (msg == NULL) {
	pcmk__ipc_send_ack(client, id, flags, "ack", NULL, CRM_EX_PROTOCOL);
	return 0;
	}
	pcmk__ipc_send_ack(client, id, flags, "ack", NULL, CRM_EX_INDETERMINATE);

	CRM_ASSERT(client->user != NULL);
	pcmk__update_acl_user(msg, F_CRM_USER, client->user);

	crm_xml_add(msg, F_CRM_SYS_FROM, client->id);
	if (controld_authorize_ipc_message(msg, client, NULL)) {
	crm_trace("Processing IPC message from client %s",
	pcmk__client_name(client));
	route_message(C_IPC_MESSAGE, msg);
	}

	controld_trigger_fsa();
	free_xml(msg);
	return 0;
	}

	static int32_t
	ipc_client_disconnected(qb_ipcs_connection_t *c)
	{
	pcmk__client_t *client = pcmk__find_client(c);

	if (client) {
	crm_trace("Disconnecting %sregistered client %s (%p/%p)",
	(client->userdata? "" : "un"), pcmk__client_name(client),
	c, client);
	free(client->userdata);
	pcmk__free_client(client);
	controld_trigger_fsa();
	}
	return 0;
	}

	static void
	ipc_connection_destroyed(qb_ipcs_connection_t *c)
	{
	crm_trace("Connection %p", c);
	ipc_client_disconnected(c);
	}

	/* A_STOP */
	void
	do_stop(long long action,
	enum crmd_fsa_cause cause,
	enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data)
	{
	crm_trace("Closing IPC server");
	mainloop_del_ipc_server(ipcs); ipcs = NULL;
	register_fsa_input(C_FSA_INTERNAL, I_TERMINATE, NULL);
	}

	/* A_STARTED */
	void
	do_started(long long action,
	enum crmd_fsa_cause cause,
	enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data)
	{
	static struct qb_ipcs_service_handlers crmd_callbacks = {
	.connection_accept = accept_controller_client,
	.connection_created = NULL,
	.msg_process = dispatch_controller_ipc,
	.connection_closed = ipc_client_disconnected,
	.connection_destroyed = ipc_connection_destroyed
	};

	if (cur_state != S_STARTING) {
	crm_err("Start cancelled... %s", fsa_state2string(cur_state));
	return;

	} else if (!pcmk_is_set(controld_globals.fsa_input_register,
	R_MEMBERSHIP)) {
	crm_info("Delaying start, no membership data (%.16llx)", R_MEMBERSHIP);

	crmd_fsa_stall(TRUE);
	return;

	} else if (!pcmk_is_set(controld_globals.fsa_input_register,
	R_LRM_CONNECTED)) {
	crm_info("Delaying start, not connected to executor (%.16llx)", R_LRM_CONNECTED);

	crmd_fsa_stall(TRUE);
	return;

	} else if (!pcmk_is_set(controld_globals.fsa_input_register,
	R_CIB_CONNECTED)) {
	crm_info("Delaying start, CIB not connected (%.16llx)", R_CIB_CONNECTED);

	crmd_fsa_stall(TRUE);
	return;

	} else if (!pcmk_is_set(controld_globals.fsa_input_register,
	R_READ_CONFIG)) {
	crm_info("Delaying start, Config not read (%.16llx)", R_READ_CONFIG);

	crmd_fsa_stall(TRUE);
	return;

	} else if (!pcmk_is_set(controld_globals.fsa_input_register, R_PEER_DATA)) {

	crm_info("Delaying start, No peer data (%.16llx)", R_PEER_DATA);
	crmd_fsa_stall(TRUE);
	return;
	}

	crm_debug("Init server comms");
	ipcs = pcmk__serve_controld_ipc(&crmd_callbacks);
	if (ipcs == NULL) {
	crm_err("Failed to create IPC server: shutting down and inhibiting respawn");
	register_fsa_error(C_FSA_INTERNAL, I_ERROR, NULL);
	} else {
	crm_notice("Pacemaker controller successfully started and accepting connections");
	}
	controld_trigger_fencer_connect();

	controld_clear_fsa_input_flags(R_STARTING);
	register_fsa_input(msg_data->fsa_cause, I_PENDING, NULL);
	}

	/* A_RECOVER */
	void
	do_recover(long long action,
	enum crmd_fsa_cause cause,
	enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data)
	{
	controld_set_fsa_input_flags(R_IN_RECOVERY);
	crm_warn("Fast-tracking shutdown in response to errors");

	register_fsa_input(C_FSA_INTERNAL, I_TERMINATE, NULL);
	}

	static pcmk__cluster_option_t controller_options[] = {
	/* name, old name, type, allowed values,
	* default value, validator,
	* short description,
	* long description
	*/
	{
	"dc-version", NULL, "string", NULL, PCMK__VALUE_NONE, NULL,
	N_("Pacemaker version on cluster node elected Designated Controller (DC)"),
	N_("Includes a hash which identifies the exact changeset the code was "
	"built from. Used for diagnostic purposes.")
	},
	{
	"cluster-infrastructure", NULL, "string", NULL, "corosync", NULL,
	N_("The messaging stack on which Pacemaker is currently running"),
	N_("Used for informational and diagnostic purposes.")
	},
	{
	"cluster-name", NULL, "string", NULL, NULL, NULL,
	N_("An arbitrary name for the cluster"),
	N_("This optional value is mostly for users' convenience as desired "
	"in administration, but may also be used in Pacemaker "
	"configuration rules via the #cluster-name node attribute, and "
	"by higher-level tools and resource agents.")
	},
	{
	XML_CONFIG_ATTR_DC_DEADTIME, NULL, "time",
	NULL, "20s", pcmk__valid_interval_spec,
	N_("How long to wait for a response from other nodes during start-up"),
	N_("The optimal value will depend on the speed and load of your network "
	"and the type of switches used.")
	},
	{
	XML_CONFIG_ATTR_RECHECK, NULL, "time",
	N_("Zero disables polling, while positive values are an interval in seconds"
	"(unless other units are specified, for example \"5min\")"),
	"15min", pcmk__valid_interval_spec,
	N_("Polling interval to recheck cluster state and evaluate rules "
	"with date specifications"),
	N_("Pacemaker is primarily event-driven, and looks ahead to know when to "
	"recheck cluster state for failure timeouts and most time-based "
	"rules. However, it will also recheck the cluster after this "
	"amount of inactivity, to evaluate rules with date specifications "
	"and serve as a fail-safe for certain types of scheduler bugs.")
	},
	{
	"load-threshold", NULL, "percentage", NULL,
	"80%", pcmk__valid_percentage,
	N_("Maximum amount of system load that should be used by cluster nodes"),
	N_("The cluster will slow down its recovery process when the amount of "
	"system resources used (currently CPU) approaches this limit"),
	},
	{
	"node-action-limit", NULL, "integer", NULL,
	"0", pcmk__valid_number,
	N_("Maximum number of jobs that can be scheduled per node "
	"(defaults to 2x cores)")
	},
	{ XML_CONFIG_ATTR_FENCE_REACTION, NULL, "string", NULL, "stop", NULL,
	N_("How a cluster node should react if notified of its own fencing"),
	N_("A cluster node may receive notification of its own fencing if fencing "
	"is misconfigured, or if fabric fencing is in use that doesn't cut "
	"cluster communication. Allowed values are \"stop\" to attempt to "
	"immediately stop Pacemaker and stay stopped, or \"panic\" to attempt "
	"to immediately reboot the local node, falling back to stop on failure.")
	},
	{
	XML_CONFIG_ATTR_ELECTION_FAIL, NULL, "time", NULL,
	"2min", pcmk__valid_interval_spec,
	"* Advanced Use Only *",
	N_("Declare an election failed if it is not decided within this much "
	"time. If you need to adjust this value, it probably indicates "
	"the presence of a bug.")
	},
	{
	XML_CONFIG_ATTR_FORCE_QUIT, NULL, "time", NULL,
	"20min", pcmk__valid_interval_spec,
	"* Advanced Use Only *",
	N_("Exit immediately if shutdown does not complete within this much "
	"time. If you need to adjust this value, it probably indicates "
	"the presence of a bug.")
	},
	{
	"join-integration-timeout", "crmd-integration-timeout", "time", NULL,
	"3min", pcmk__valid_interval_spec,
	"* Advanced Use Only *",
	N_("If you need to adjust this value, it probably indicates "
	"the presence of a bug.")
	},
	{
	"join-finalization-timeout", "crmd-finalization-timeout", "time", NULL,
	"30min", pcmk__valid_interval_spec,
	"* Advanced Use Only *",
	N_("If you need to adjust this value, it probably indicates "
	"the presence of a bug.")
	},
	{
	"transition-delay", "crmd-transition-delay", "time", NULL,
	"0s", pcmk__valid_interval_spec,
	N_("* Advanced Use Only * Enabling this option will slow down "
	"cluster recovery under all conditions"),
	N_("Delay cluster recovery for this much time to allow for additional "
	"events to occur. Useful if your configuration is sensitive to "
	"the order in which ping updates arrive.")
	},
	{
	"stonith-watchdog-timeout", NULL, "time", NULL,
	"0", controld_verify_stonith_watchdog_timeout,
	N_("How long before nodes can be assumed to be safely down when "
	"watchdog-based self-fencing via SBD is in use"),
	N_("If this is set to a positive value, lost nodes are assumed to "
	"self-fence using watchdog-based SBD within this much time. This "
	"does not require a fencing resource to be explicitly configured, "
	"though a fence_watchdog resource can be configured, to limit use "
	"to specific nodes. If this is set to 0 (the default), the cluster "
	"will never assume watchdog-based self-fencing. If this is set to a "
	"negative value, the cluster will use twice the local value of the "
	"`SBD_WATCHDOG_TIMEOUT` environment variable if that is positive, "
	"or otherwise treat this as 0. WARNING: When used, this timeout "
	"must be larger than `SBD_WATCHDOG_TIMEOUT` on all nodes that use "
	"watchdog-based SBD, and Pacemaker will refuse to start on any of "
	"those nodes where this is not true for the local value or SBD is "
	"not active. When this is set to a negative value, "
	"`SBD_WATCHDOG_TIMEOUT` must be set to the same value on all nodes "
	"that use SBD, otherwise data corruption or loss could occur.")
	},
	{
	"stonith-max-attempts", NULL, "integer", NULL,
	"10", pcmk__valid_positive_number,
	N_("How many times fencing can fail before it will no longer be "
	"immediately re-attempted on a target")
	},

	// Already documented in libpe_status (other values must be kept identical)
	{
	"no-quorum-policy", NULL, "select",
	"stop, freeze, ignore, demote, suicide", "stop", pcmk__valid_quorum,
	N_("What to do when the cluster does not have quorum"), NULL
	},
	{
	XML_CONFIG_ATTR_SHUTDOWN_LOCK, NULL, "boolean", NULL,
	"false", pcmk__valid_boolean,
	N_("Whether to lock resources to a cleanly shut down node"),
	N_("When true, resources active on a node when it is cleanly shut down "
	"are kept \"locked\" to that node (not allowed to run elsewhere) "
	"until they start again on that node after it rejoins (or for at "
	"most shutdown-lock-limit, if set). Stonith resources and "
	"Pacemaker Remote connections are never locked. Clone and bundle "
	"instances and the promoted role of promotable clones are "
	"currently never locked, though support could be added in a future "
	"release.")
	},
	{
	XML_CONFIG_ATTR_SHUTDOWN_LOCK_LIMIT, NULL, "time", NULL,
	"0", pcmk__valid_interval_spec,
	N_("Do not lock resources to a cleanly shut down node longer than "
	"this"),
	N_("If shutdown-lock is true and this is set to a nonzero time "
	"duration, shutdown locks will expire after this much time has "
	"passed since the shutdown was initiated, even if the node has not "
	"rejoined.")
	},
	};

	void
	crmd_metadata(void)
	{
	const char *desc_short = "Pacemaker controller options";
	const char *desc_long = "Cluster options used by Pacemaker's controller";

	gchar *s = pcmk__format_option_metadata("pacemaker-controld", desc_short,
	desc_long, controller_options,
	PCMK__NELEM(controller_options));
	printf("%s", s);
	g_free(s);
	}

	static void
	config_query_callback(xmlNode * msg, int call_id, int rc, xmlNode * output, void *user_data)
	{
	const char *value = NULL;
	GHashTable *config_hash = NULL;
	crm_time_t *now = crm_time_new(NULL);
	xmlNode *crmconfig = NULL;
	xmlNode *alerts = NULL;

	if (rc != pcmk_ok) {
	fsa_data_t *msg_data = NULL;

	crm_err("Local CIB query resulted in an error: %s", pcmk_strerror(rc));
	register_fsa_error(C_FSA_INTERNAL, I_ERROR, NULL);

	if (rc == -EACCES \|\| rc == -pcmk_err_schema_validation) {
	crm_err("The cluster is mis-configured - shutting down and staying down");
	controld_set_fsa_input_flags(R_STAYDOWN);
	}
	goto bail;
	}

	crmconfig = output;
	if ((crmconfig) &&
	(crm_element_name(crmconfig)) &&
	(strcmp(crm_element_name(crmconfig), XML_CIB_TAG_CRMCONFIG) != 0)) {
	crmconfig = first_named_child(crmconfig, XML_CIB_TAG_CRMCONFIG);
	}
	if (!crmconfig) {
	fsa_data_t *msg_data = NULL;

	crm_err("Local CIB query for " XML_CIB_TAG_CRMCONFIG " section failed");
	register_fsa_error(C_FSA_INTERNAL, I_ERROR, NULL);
	goto bail;
	}

	crm_debug("Call %d : Parsing CIB options", call_id);
	config_hash = pcmk__strkey_table(free, free);
	pe_unpack_nvpairs(crmconfig, crmconfig, XML_CIB_TAG_PROPSET, NULL,
	config_hash, CIB_OPTIONS_FIRST, FALSE, now, NULL);

	// Validate all options, and use defaults if not already present in hash
	pcmk__validate_cluster_options(config_hash, controller_options,
	PCMK__NELEM(controller_options));

	value = g_hash_table_lookup(config_hash, "no-quorum-policy");
	if (pcmk__str_eq(value, "suicide", pcmk__str_casei) && pcmk__locate_sbd()) {
	controld_set_global_flags(controld_no_quorum_suicide);
	}

	value = g_hash_table_lookup(config_hash, XML_CONFIG_ATTR_SHUTDOWN_LOCK);
	if (crm_is_true(value)) {
	controld_set_global_flags(controld_shutdown_lock_enabled);
	} else {
	controld_clear_global_flags(controld_shutdown_lock_enabled);
	}

	value = g_hash_table_lookup(config_hash,
	XML_CONFIG_ATTR_SHUTDOWN_LOCK_LIMIT);
	controld_globals.shutdown_lock_limit = crm_parse_interval_spec(value)
	/ 1000;

	+ value = g_hash_table_lookup(config_hash,
	+ XML_CONFIG_ATTR_NODE_PENDING_TIMEOUT);
	+ controld_globals.node_pending_timeout = crm_parse_interval_spec(value) / 1000;
	+
	value = g_hash_table_lookup(config_hash, "cluster-name");
	pcmk__str_update(&(controld_globals.cluster_name), value);

	// Let subcomponents initialize their own static variables
	controld_configure_election(config_hash);
	controld_configure_fencing(config_hash);
	controld_configure_fsa_timers(config_hash);
	controld_configure_throttle(config_hash);

	alerts = first_named_child(output, XML_CIB_TAG_ALERTS);
	crmd_unpack_alerts(alerts);

	controld_set_fsa_input_flags(R_READ_CONFIG);
	controld_trigger_fsa();

	g_hash_table_destroy(config_hash);
	bail:
	crm_time_free(now);
	}

	/*!
	* \internal
	* \brief Trigger read and processing of the configuration
	*
	* \param[in] fn Calling function name
	* \param[in] line Line number where call occurred
	*/
	void
	controld_trigger_config_as(const char *fn, int line)
	{
	if (config_read_trigger != NULL) {
	crm_trace("%s:%d - Triggered config processing", fn, line);
	mainloop_set_trigger(config_read_trigger);
	}
	}

	gboolean
	crm_read_options(gpointer user_data)
	{
	cib_t *cib_conn = controld_globals.cib_conn;
	int call_id = cib_conn->cmds->query(cib_conn,
	"//" XML_CIB_TAG_CRMCONFIG
	" \| //" XML_CIB_TAG_ALERTS,
	NULL, cib_xpath\|cib_scope_local);

	fsa_register_cib_callback(call_id, NULL, config_query_callback);
	crm_trace("Querying the CIB... call %d", call_id);
	return TRUE;
	}

	/* A_READCONFIG */
	void
	do_read_config(long long action,
	enum crmd_fsa_cause cause,
	enum crmd_fsa_state cur_state,
	enum crmd_fsa_input current_input, fsa_data_t * msg_data)
	{
	throttle_init();
	controld_trigger_config();
	}

	void
	crm_shutdown(int nsig)
	{
	const char *value = NULL;
	guint default_period_ms = 0;

	if ((controld_globals.mainloop == NULL)
	\|\| !g_main_loop_is_running(controld_globals.mainloop)) {
	crmd_exit(CRM_EX_OK);
	return;
	}

	if (pcmk_is_set(controld_globals.fsa_input_register, R_SHUTDOWN)) {
	crm_err("Escalating shutdown");
	register_fsa_input_before(C_SHUTDOWN, I_ERROR, NULL);
	return;
	}

	controld_set_fsa_input_flags(R_SHUTDOWN);
	register_fsa_input(C_SHUTDOWN, I_SHUTDOWN, NULL);

	/* If shutdown timer doesn't have a period set, use the default
	*
	* @TODO: Evaluate whether this is still necessary. As long as
	* config_query_callback() has been run at least once, it doesn't look like
	* anything could have changed the timer period since then.
	*/
	value = pcmk__cluster_option(NULL, controller_options,
	PCMK__NELEM(controller_options),
	XML_CONFIG_ATTR_FORCE_QUIT);
	default_period_ms = crm_parse_interval_spec(value);
	controld_shutdown_start_countdown(default_period_ms);
	}
	diff --git a/daemons/controld/controld_globals.h b/daemons/controld/controld_globals.h
	index eff1607ae3..c8733501bc 100644
	--- a/daemons/controld/controld_globals.h
	+++ b/daemons/controld/controld_globals.h
	@@ -1,143 +1,146 @@
	/*
	* Copyright 2022-2023 the Pacemaker project contributors
	*
	* The version control history for this file may have further details.
	*
	* This source code is licensed under the GNU Lesser General Public License
	* version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
	*/

	#ifndef CONTROLD_GLOBALS__H
	# define CONTROLD_GLOBALS__H

	#include <crm_internal.h> // pcmk__output_t, etc.

	#include <stdint.h> // uint32_t, uint64_t
	#include <glib.h> // GList, GMainLoop
	#include <crm/cib.h> // cib_t
	#include <pacemaker-internal.h> // pcmk__graph_t
	#include <controld_fsa.h> // enum crmd_fsa_state

	typedef struct {
	// Booleans

	//! Group of \p controld_flags values
	uint32_t flags;


	// Controller FSA

	//! FSA state
	enum crmd_fsa_state fsa_state;

	//! FSA actions (group of \p A_* flags)
	uint64_t fsa_actions;

	//! FSA input register contents (group of \p R_* flags)
	uint64_t fsa_input_register;

	//! FSA message queue
	GList *fsa_message_queue;


	// CIB

	//! Connection to the CIB
	cib_t *cib_conn;

	//! CIB connection's client ID
	const char *cib_client_id;


	// Scheduler

	//! Reference of the scheduler request being waited on
	char *fsa_pe_ref;


	// Transitioner

	//! Transitioner UUID
	char *te_uuid;

	//! Graph of transition currently being processed
	pcmk__graph_t *transition_graph;


	// Logging

	//! Output object for controller log messages
	pcmk__output_t *logger_out;


	// Other

	//! Cluster name
	char *cluster_name;

	//! Designated controller name
	char *dc_name;

	//! Designated controller's Pacemaker version
	char *dc_version;

	//! Local node's node name
	char *our_nodename;

	//! Local node's UUID
	char *our_uuid;

	//! Last saved cluster communication layer membership ID
	unsigned long long membership_id;

	//! Max lifetime (in seconds) of a resource's shutdown lock to a node
	guint shutdown_lock_limit;

	+ //! Node pending timeout
	+ guint node_pending_timeout;
	+
	//! Main event loop
	GMainLoop *mainloop;
	} controld_globals_t;

	extern controld_globals_t controld_globals;

	/*!
	* \internal
	* \enum controld_flags
	* \brief Bit flags to store various controller state and configuration info
	*/
	enum controld_flags {
	//! The DC left in a membership change that is being processed
	controld_dc_left = (1 << 0),

	//! The FSA is stalled waiting for further input
	controld_fsa_is_stalled = (1 << 1),

	//! The local node has been in a quorate partition at some point
	controld_ever_had_quorum = (1 << 2),

	//! The local node is currently in a quorate partition
	controld_has_quorum = (1 << 3),

	//! Panic the local node if it loses quorum
	controld_no_quorum_suicide = (1 << 4),

	//! Lock resources to the local node when it shuts down cleanly
	controld_shutdown_lock_enabled = (1 << 5),
	};

	# define controld_set_global_flags(flags_to_set) do { \
	controld_globals.flags = pcmk__set_flags_as(__func__, __LINE__, \
	LOG_TRACE, \
	"Global", "controller", \
	controld_globals.flags, \
	(flags_to_set), \
	#flags_to_set); \
	} while (0)

	# define controld_clear_global_flags(flags_to_clear) do { \
	controld_globals.flags \
	= pcmk__clear_flags_as(__func__, __LINE__, LOG_TRACE, "Global", \
	"controller", controld_globals.flags, \
	(flags_to_clear), #flags_to_clear); \
	} while (0)

	#endif // ifndef CONTROLD_GLOBALS__H

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