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	diff --git a/include/crm/common/actions.h b/include/crm/common/actions.h
	index d9610b38a0..1630ffa92f 100644
	--- a/include/crm/common/actions.h
	+++ b/include/crm/common/actions.h
	@@ -1,130 +1,131 @@
	/*
	* 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 Lesser General Public License
	* version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
	*/

	#ifndef PCMK__CRM_COMMON_ACTIONS__H
	#define PCMK__CRM_COMMON_ACTIONS__H

	#include <stdbool.h> // bool
	#include <strings.h> // strcasecmp()
	#include <glib.h> // gboolean, guint
	#include <libxml/tree.h> // xmlNode

	#include <crm/lrmd_events.h> // lrmd_event_data_t

	#ifdef __cplusplus
	extern "C" {
	#endif

	/*!
	* \file
	* \brief APIs related to actions
	* \ingroup core
	*/

	//! Default timeout (in milliseconds) for non-metadata actions
	#define PCMK_DEFAULT_ACTION_TIMEOUT_MS 20000

	// @COMPAT We don't need a separate timeout for metadata, much less a longer one
	//! \deprecated Default timeout (in milliseconds) for metadata actions
	#define PCMK_DEFAULT_METADATA_TIMEOUT_MS 30000

	// Action names as strings
	#define PCMK_ACTION_CANCEL "cancel"
	#define PCMK_ACTION_CLEAR_FAILCOUNT "clear_failcount"
	#define PCMK_ACTION_CLONE_ONE_OR_MORE "clone-one-or-more"
	#define PCMK_ACTION_DELETE "delete"
	#define PCMK_ACTION_DEMOTE "demote"
	#define PCMK_ACTION_DEMOTED "demoted"
	#define PCMK_ACTION_DO_SHUTDOWN "do_shutdown"
	#define PCMK_ACTION_LIST "list"
	#define PCMK_ACTION_LRM_DELETE "lrm_delete"
	#define PCMK_ACTION_LOAD_STOPPED "load_stopped"
	#define PCMK_ACTION_MAINTENANCE_NODES "maintenance_nodes"
	#define PCMK_ACTION_META_DATA "meta-data"
	#define PCMK_ACTION_MIGRATE_FROM "migrate_from"
	#define PCMK_ACTION_MIGRATE_TO "migrate_to"
	#define PCMK_ACTION_MONITOR "monitor"
	#define PCMK_ACTION_NOTIFIED "notified"
	#define PCMK_ACTION_NOTIFY "notify"
	#define PCMK_ACTION_OFF "off"
	#define PCMK_ACTION_ON "on"
	#define PCMK_ACTION_ONE_OR_MORE "one-or-more"
	#define PCMK_ACTION_PROMOTE "promote"
	#define PCMK_ACTION_PROMOTED "promoted"
	#define PCMK_ACTION_REBOOT "reboot"
	#define PCMK_ACTION_RELOAD "reload"
	#define PCMK_ACTION_RELOAD_AGENT "reload-agent"
	#define PCMK_ACTION_RUNNING "running"
	#define PCMK_ACTION_START "start"
	#define PCMK_ACTION_STATUS "status"
	#define PCMK_ACTION_STONITH "stonith"
	#define PCMK_ACTION_STOP "stop"
	#define PCMK_ACTION_STOPPED "stopped"
	#define PCMK_ACTION_VALIDATE_ALL "validate-all"

	//! Possible actions (including some pseudo-actions)
	enum action_tasks {
	pcmk_action_unspecified = 0, //!< Unspecified or unknown action
	pcmk_action_monitor, //!< Monitor

	// Each "completed" action must be the regular action plus 1

	pcmk_action_stop, //!< Stop
	+ pcmk_action_stopped, //!< Stop completed

	#if !defined(PCMK_ALLOW_DEPRECATED) \|\| (PCMK_ALLOW_DEPRECATED == 1)
	//! \deprecated Use pcmk_action_unspecified instead
	no_action = pcmk_action_unspecified,

	//! \deprecated Use pcmk_action_monitor instead
	monitor_rsc = pcmk_action_monitor,

	//! \deprecated Use pcmk_action_stop instead
	stop_rsc = pcmk_action_stop,
	#endif
	- stopped_rsc,
	+ stopped_rsc = pcmk_action_stopped,
	start_rsc,
	started_rsc,
	action_notify,
	action_notified,
	action_promote,
	action_promoted,
	action_demote,
	action_demoted,
	shutdown_crm,
	stonith_node
	};

	// For parsing various action-related string specifications
	gboolean parse_op_key(const char key, char rsc_id, char *op_type,
	guint *interval_ms);
	gboolean decode_transition_key(const char key, char uuid, int transition_id,
	int action_id, int target_rc);
	gboolean decode_transition_magic(const char magic, char *uuid,
	int transition_id, int action_id,
	int op_status, int op_rc, int *target_rc);

	// @COMPAT Either these shouldn't be in libcrmcommon or lrmd_event_data_t should
	int rsc_op_expected_rc(const lrmd_event_data_t *event);
	gboolean did_rsc_op_fail(lrmd_event_data_t *event, int target_rc);

	bool crm_op_needs_metadata(const char rsc_class, const char op);

	xmlNode crm_create_op_xml(xmlNode parent, const char *prefix,
	const char task, const char interval_spec,
	const char *timeout);

	bool pcmk_is_probe(const char *task, guint interval);
	bool pcmk_xe_is_probe(const xmlNode *xml_op);
	bool pcmk_xe_mask_probe_failure(const xmlNode *xml_op);

	#ifdef __cplusplus
	}
	#endif

	#endif // PCMK__CRM_COMMON_ACTIONS__H
	diff --git a/lib/pacemaker/pcmk_sched_actions.c b/lib/pacemaker/pcmk_sched_actions.c
	index 305d689c23..e002b7d809 100644
	--- a/lib/pacemaker/pcmk_sched_actions.c
	+++ b/lib/pacemaker/pcmk_sched_actions.c
	@@ -1,1931 +1,1931 @@
	/*
	* 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 <stdio.h>
	#include <sys/param.h>
	#include <glib.h>

	#include <crm/lrmd_internal.h>
	#include <pacemaker-internal.h>
	#include "libpacemaker_private.h"

	/*!
	* \internal
	* \brief Get the action flags relevant to ordering constraints
	*
	* \param[in,out] action Action to check
	* \param[in] node Node that other action in the ordering is on
	* (used only for clone resource actions)
	*
	* \return Action flags that should be used for orderings
	*/
	static uint32_t
	action_flags_for_ordering(pe_action_t action, const pe_node_t node)
	{
	bool runnable = false;
	uint32_t flags;

	// For non-resource actions, return the action flags
	if (action->rsc == NULL) {
	return action->flags;
	}

	/* For non-clone resources, or a clone action not assigned to a node,
	* return the flags as determined by the resource method without a node
	* specified.
	*/
	flags = action->rsc->cmds->action_flags(action, NULL);
	if ((node == NULL) \|\| !pe_rsc_is_clone(action->rsc)) {
	return flags;
	}

	/* Otherwise (i.e., for clone resource actions on a specific node), first
	* remember whether the non-node-specific action is runnable.
	*/
	runnable = pcmk_is_set(flags, pe_action_runnable);

	// Then recheck the resource method with the node
	flags = action->rsc->cmds->action_flags(action, node);

	/* For clones in ordering constraints, the node-specific "runnable" doesn't
	* matter, just the non-node-specific setting (i.e., is the action runnable
	* anywhere).
	*
	* This applies only to runnable, and only for ordering constraints. This
	* function shouldn't be used for other types of constraints without
	* changes. Not very satisfying, but it's logical and appears to work well.
	*/
	if (runnable && !pcmk_is_set(flags, pe_action_runnable)) {
	pe__set_raw_action_flags(flags, action->rsc->id,
	pe_action_runnable);
	}
	return flags;
	}

	/*!
	* \internal
	* \brief Get action UUID that should be used with a resource ordering
	*
	* When an action is ordered relative to an action for a collective resource
	* (clone, group, or bundle), it actually needs to be ordered after all
	* instances of the collective have completed the relevant action (for example,
	* given "start CLONE then start RSC", RSC must wait until all instances of
	* CLONE have started). Given the UUID and resource of the first action in an
	* ordering, this returns the UUID of the action that should actually be used
	* for ordering (for example, "CLONE_started_0" instead of "CLONE_start_0").
	*
	* \param[in] first_uuid UUID of first action in ordering
	* \param[in] first_rsc Resource of first action in ordering
	*
	* \return Newly allocated copy of UUID to use with ordering
	* \note It is the caller's responsibility to free the return value.
	*/
	static char *
	action_uuid_for_ordering(const char first_uuid, const pe_resource_t first_rsc)
	{
	guint interval_ms = 0;
	char *uuid = NULL;
	char *rid = NULL;
	char *first_task_str = NULL;
	enum action_tasks first_task = pcmk_action_unspecified;
	enum action_tasks remapped_task = pcmk_action_unspecified;

	// Only non-notify actions for collective resources need remapping
	if ((strstr(first_uuid, PCMK_ACTION_NOTIFY) != NULL)
	\|\| (first_rsc->variant < pe_group)) {
	goto done;
	}

	// Only non-recurring actions need remapping
	CRM_ASSERT(parse_op_key(first_uuid, &rid, &first_task_str, &interval_ms));
	if (interval_ms > 0) {
	goto done;
	}

	first_task = text2task(first_task_str);
	switch (first_task) {
	case pcmk_action_stop:
	case start_rsc:
	case action_notify:
	case action_promote:
	case action_demote:
	remapped_task = first_task + 1;
	break;
	- case stopped_rsc:
	+ case pcmk_action_stopped:
	case started_rsc:
	case action_notified:
	case action_promoted:
	case action_demoted:
	remapped_task = first_task;
	break;
	case pcmk_action_monitor:
	case shutdown_crm:
	case stonith_node:
	break;
	default:
	crm_err("Unknown action '%s' in ordering", first_task_str);
	break;
	}

	if (remapped_task != pcmk_action_unspecified) {
	/* If a (clone) resource has notifications enabled, we want to order
	* relative to when all notifications have been sent for the remapped
	* task. Only outermost resources or those in bundles have
	* notifications.
	*/
	if (pcmk_is_set(first_rsc->flags, pe_rsc_notify)
	&& ((first_rsc->parent == NULL)
	\|\| (pe_rsc_is_clone(first_rsc)
	&& (first_rsc->parent->variant == pe_container)))) {
	uuid = pcmk__notify_key(rid, "confirmed-post",
	task2text(remapped_task));
	} else {
	uuid = pcmk__op_key(rid, task2text(remapped_task), 0);
	}
	pe_rsc_trace(first_rsc,
	"Remapped action UUID %s to %s for ordering purposes",
	first_uuid, uuid);
	}

	done:
	if (uuid == NULL) {
	uuid = strdup(first_uuid);
	CRM_ASSERT(uuid != NULL);
	}
	free(first_task_str);
	free(rid);
	return uuid;
	}

	/*!
	* \internal
	* \brief Get actual action that should be used with an ordering
	*
	* When an action is ordered relative to an action for a collective resource
	* (clone, group, or bundle), it actually needs to be ordered after all
	* instances of the collective have completed the relevant action (for example,
	* given "start CLONE then start RSC", RSC must wait until all instances of
	* CLONE have started). Given the first action in an ordering, this returns the
	* the action that should actually be used for ordering (for example, the
	* started action instead of the start action).
	*
	* \param[in] action First action in an ordering
	*
	* \return Actual action that should be used for the ordering
	*/
	static pe_action_t *
	action_for_ordering(pe_action_t *action)
	{
	pe_action_t *result = action;
	pe_resource_t *rsc = action->rsc;

	if ((rsc != NULL) && (rsc->variant >= pe_group) && (action->uuid != NULL)) {
	char *uuid = action_uuid_for_ordering(action->uuid, rsc);

	result = find_first_action(rsc->actions, uuid, NULL, NULL);
	if (result == NULL) {
	crm_warn("Not remapping %s to %s because %s does not have "
	"remapped action", action->uuid, uuid, rsc->id);
	result = action;
	}
	free(uuid);
	}
	return result;
	}

	/*!
	* \internal
	* \brief Wrapper for update_ordered_actions() method for readability
	*
	* \param[in,out] rsc Resource to call method for
	* \param[in,out] first 'First' action in an ordering
	* \param[in,out] then 'Then' action in an ordering
	* \param[in] node If not NULL, limit scope of ordering to this
	* node (only used when interleaving instances)
	* \param[in] flags Action flags for \p first for ordering purposes
	* \param[in] filter Action flags to limit scope of certain updates
	* (may include pe_action_optional to affect only
	* mandatory actions, and pe_action_runnable to
	* affect only runnable actions)
	* \param[in] type Group of enum pe_ordering flags to apply
	* \param[in,out] data_set Cluster working set
	*
	* \return Group of enum pcmk__updated flags indicating what was updated
	*/
	static inline uint32_t
	update(pe_resource_t rsc, pe_action_t first, pe_action_t *then,
	const pe_node_t *node, uint32_t flags, uint32_t filter, uint32_t type,
	pe_working_set_t *data_set)
	{
	return rsc->cmds->update_ordered_actions(first, then, node, flags, filter,
	type, data_set);
	}

	/*!
	* \internal
	* \brief Update flags for ordering's actions appropriately for ordering's flags
	*
	* \param[in,out] first First action in an ordering
	* \param[in,out] then Then action in an ordering
	* \param[in] first_flags Action flags for \p first for ordering purposes
	* \param[in] then_flags Action flags for \p then for ordering purposes
	* \param[in,out] order Action wrapper for \p first in ordering
	* \param[in,out] data_set Cluster working set
	*
	* \return Group of enum pcmk__updated flags
	*/
	static uint32_t
	update_action_for_ordering_flags(pe_action_t first, pe_action_t then,
	uint32_t first_flags, uint32_t then_flags,
	pe_action_wrapper_t *order,
	pe_working_set_t *data_set)
	{
	uint32_t changed = pcmk__updated_none;

	/* The node will only be used for clones. If interleaved, node will be NULL,
	* otherwise the ordering scope will be limited to the node. Normally, the
	* whole 'then' clone should restart if 'first' is restarted, so then->node
	* is needed.
	*/
	pe_node_t *node = then->node;

	if (pcmk_is_set(order->type, pe_order_implies_then_on_node)) {
	/* For unfencing, only instances of 'then' on the same node as 'first'
	* (the unfencing operation) should restart, so reset node to
	* first->node, at which point this case is handled like a normal
	* pe_order_implies_then.
	*/
	pe__clear_order_flags(order->type, pe_order_implies_then_on_node);
	pe__set_order_flags(order->type, pe_order_implies_then);
	node = first->node;
	pe_rsc_trace(then->rsc,
	"%s then %s: mapped pe_order_implies_then_on_node to "
	"pe_order_implies_then on %s",
	first->uuid, then->uuid, pe__node_name(node));
	}

	if (pcmk_is_set(order->type, pe_order_implies_then)) {
	if (then->rsc != NULL) {
	changed \|= update(then->rsc, first, then, node,
	first_flags & pe_action_optional,
	pe_action_optional, pe_order_implies_then,
	data_set);
	} else if (!pcmk_is_set(first_flags, pe_action_optional)
	&& pcmk_is_set(then->flags, pe_action_optional)) {
	pe__clear_action_flags(then, pe_action_optional);
	pcmk__set_updated_flags(changed, first, pcmk__updated_then);
	}
	pe_rsc_trace(then->rsc, "%s then %s: %s after pe_order_implies_then",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(order->type, pe_order_restart) && (then->rsc != NULL)) {
	enum pe_action_flags restart = pe_action_optional\|pe_action_runnable;

	changed \|= update(then->rsc, first, then, node, first_flags, restart,
	pe_order_restart, data_set);
	pe_rsc_trace(then->rsc, "%s then %s: %s after pe_order_restart",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(order->type, pe_order_implies_first)) {
	if (first->rsc != NULL) {
	changed \|= update(first->rsc, first, then, node, first_flags,
	pe_action_optional, pe_order_implies_first,
	data_set);
	} else if (!pcmk_is_set(first_flags, pe_action_optional)
	&& pcmk_is_set(first->flags, pe_action_runnable)) {
	pe__clear_action_flags(first, pe_action_runnable);
	pcmk__set_updated_flags(changed, first, pcmk__updated_first);
	}
	pe_rsc_trace(then->rsc, "%s then %s: %s after pe_order_implies_first",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(order->type, pe_order_promoted_implies_first)) {
	if (then->rsc != NULL) {
	changed \|= update(then->rsc, first, then, node,
	first_flags & pe_action_optional,
	pe_action_optional,
	pe_order_promoted_implies_first, data_set);
	}
	pe_rsc_trace(then->rsc,
	"%s then %s: %s after pe_order_promoted_implies_first",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(order->type, pe_order_one_or_more)) {
	if (then->rsc != NULL) {
	changed \|= update(then->rsc, first, then, node, first_flags,
	pe_action_runnable, pe_order_one_or_more,
	data_set);

	} else if (pcmk_is_set(first_flags, pe_action_runnable)) {
	// We have another runnable instance of "first"
	then->runnable_before++;

	/* Mark "then" as runnable if it requires a certain number of
	* "before" instances to be runnable, and they now are.
	*/
	if ((then->runnable_before >= then->required_runnable_before)
	&& !pcmk_is_set(then->flags, pe_action_runnable)) {

	pe__set_action_flags(then, pe_action_runnable);
	pcmk__set_updated_flags(changed, first, pcmk__updated_then);
	}
	}
	pe_rsc_trace(then->rsc, "%s then %s: %s after pe_order_one_or_more",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(order->type, pe_order_probe) && (then->rsc != NULL)) {
	if (!pcmk_is_set(first_flags, pe_action_runnable)
	&& (first->rsc->running_on != NULL)) {

	pe_rsc_trace(then->rsc,
	"%s then %s: ignoring because first is stopping",
	first->uuid, then->uuid);
	order->type = pe_order_none;
	} else {
	changed \|= update(then->rsc, first, then, node, first_flags,
	pe_action_runnable, pe_order_runnable_left,
	data_set);
	}
	pe_rsc_trace(then->rsc, "%s then %s: %s after pe_order_probe",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(order->type, pe_order_runnable_left)) {
	if (then->rsc != NULL) {
	changed \|= update(then->rsc, first, then, node, first_flags,
	pe_action_runnable, pe_order_runnable_left,
	data_set);

	} else if (!pcmk_is_set(first_flags, pe_action_runnable)
	&& pcmk_is_set(then->flags, pe_action_runnable)) {

	pe__clear_action_flags(then, pe_action_runnable);
	pcmk__set_updated_flags(changed, first, pcmk__updated_then);
	}
	pe_rsc_trace(then->rsc, "%s then %s: %s after pe_order_runnable_left",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(order->type, pe_order_implies_first_migratable)) {
	if (then->rsc != NULL) {
	changed \|= update(then->rsc, first, then, node, first_flags,
	pe_action_optional,
	pe_order_implies_first_migratable, data_set);
	}
	pe_rsc_trace(then->rsc, "%s then %s: %s after "
	"pe_order_implies_first_migratable",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(order->type, pe_order_pseudo_left)) {
	if (then->rsc != NULL) {
	changed \|= update(then->rsc, first, then, node, first_flags,
	pe_action_optional, pe_order_pseudo_left,
	data_set);
	}
	pe_rsc_trace(then->rsc, "%s then %s: %s after pe_order_pseudo_left",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(order->type, pe_order_optional)) {
	if (then->rsc != NULL) {
	changed \|= update(then->rsc, first, then, node, first_flags,
	pe_action_runnable, pe_order_optional, data_set);
	}
	pe_rsc_trace(then->rsc, "%s then %s: %s after pe_order_optional",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(order->type, pe_order_asymmetrical)) {
	if (then->rsc != NULL) {
	changed \|= update(then->rsc, first, then, node, first_flags,
	pe_action_runnable, pe_order_asymmetrical,
	data_set);
	}
	pe_rsc_trace(then->rsc, "%s then %s: %s after pe_order_asymmetrical",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	if (pcmk_is_set(first->flags, pe_action_runnable)
	&& pcmk_is_set(order->type, pe_order_implies_then_printed)
	&& !pcmk_is_set(first_flags, pe_action_optional)) {

	pe_rsc_trace(then->rsc, "%s will be in graph because %s is required",
	then->uuid, first->uuid);
	pe__set_action_flags(then, pe_action_print_always);
	// Don't bother marking 'then' as changed just for this
	}

	if (pcmk_is_set(order->type, pe_order_implies_first_printed)
	&& !pcmk_is_set(then_flags, pe_action_optional)) {

	pe_rsc_trace(then->rsc, "%s will be in graph because %s is required",
	first->uuid, then->uuid);
	pe__set_action_flags(first, pe_action_print_always);
	// Don't bother marking 'first' as changed just for this
	}

	if (pcmk_any_flags_set(order->type, pe_order_implies_then
	\|pe_order_implies_first
	\|pe_order_restart)
	&& (first->rsc != NULL)
	&& !pcmk_is_set(first->rsc->flags, pe_rsc_managed)
	&& pcmk_is_set(first->rsc->flags, pe_rsc_block)
	&& !pcmk_is_set(first->flags, pe_action_runnable)
	&& pcmk__str_eq(first->task, PCMK_ACTION_STOP, pcmk__str_none)) {

	if (pcmk_is_set(then->flags, pe_action_runnable)) {
	pe__clear_action_flags(then, pe_action_runnable);
	pcmk__set_updated_flags(changed, first, pcmk__updated_then);
	}
	pe_rsc_trace(then->rsc, "%s then %s: %s after checking whether first "
	"is blocked, unmanaged, unrunnable stop",
	first->uuid, then->uuid,
	(changed? "changed" : "unchanged"));
	}

	return changed;
	}

	// Convenience macros for logging action properties

	#define action_type_str(flags) \
	(pcmk_is_set((flags), pe_action_pseudo)? "pseudo-action" : "action")

	#define action_optional_str(flags) \
	(pcmk_is_set((flags), pe_action_optional)? "optional" : "required")

	#define action_runnable_str(flags) \
	(pcmk_is_set((flags), pe_action_runnable)? "runnable" : "unrunnable")

	#define action_node_str(a) \
	(((a)->node == NULL)? "no node" : (a)->node->details->uname)

	/*!
	* \internal
	* \brief Update an action's flags for all orderings where it is "then"
	*
	* \param[in,out] then Action to update
	* \param[in,out] data_set Cluster working set
	*/
	void
	pcmk__update_action_for_orderings(pe_action_t then, pe_working_set_t data_set)
	{
	GList *lpc = NULL;
	uint32_t changed = pcmk__updated_none;
	int last_flags = then->flags;

	pe_rsc_trace(then->rsc, "Updating %s %s (%s %s) on %s",
	action_type_str(then->flags), then->uuid,
	action_optional_str(then->flags),
	action_runnable_str(then->flags), action_node_str(then));

	if (pcmk_is_set(then->flags, pe_action_requires_any)) {
	/* Initialize current known "runnable before" actions. As
	* update_action_for_ordering_flags() is called for each of then's
	* before actions, this number will increment as runnable 'first'
	* actions are encountered.
	*/
	then->runnable_before = 0;

	if (then->required_runnable_before == 0) {
	/* @COMPAT This ordering constraint uses the deprecated
	* "require-all=false" attribute. Treat it like "clone-min=1".
	*/
	then->required_runnable_before = 1;
	}

	/* The pe_order_one_or_more clause of update_action_for_ordering_flags()
	* (called below) will reset runnable if appropriate.
	*/
	pe__clear_action_flags(then, pe_action_runnable);
	}

	for (lpc = then->actions_before; lpc != NULL; lpc = lpc->next) {
	pe_action_wrapper_t other = (pe_action_wrapper_t ) lpc->data;
	pe_action_t *first = other->action;

	pe_node_t *then_node = then->node;
	pe_node_t *first_node = first->node;

	if ((first->rsc != NULL)
	&& (first->rsc->variant == pe_group)
	&& pcmk__str_eq(first->task, PCMK_ACTION_START, pcmk__str_none)) {

	first_node = first->rsc->fns->location(first->rsc, NULL, FALSE);
	if (first_node != NULL) {
	pe_rsc_trace(first->rsc, "Found %s for 'first' %s",
	pe__node_name(first_node), first->uuid);
	}
	}

	if ((then->rsc != NULL)
	&& (then->rsc->variant == pe_group)
	&& pcmk__str_eq(then->task, PCMK_ACTION_START, pcmk__str_none)) {

	then_node = then->rsc->fns->location(then->rsc, NULL, FALSE);
	if (then_node != NULL) {
	pe_rsc_trace(then->rsc, "Found %s for 'then' %s",
	pe__node_name(then_node), then->uuid);
	}
	}

	// Disable constraint if it only applies when on same node, but isn't
	if (pcmk_is_set(other->type, pe_order_same_node)
	&& (first_node != NULL) && (then_node != NULL)
	&& !pe__same_node(first_node, then_node)) {

	pe_rsc_trace(then->rsc,
	"Disabled ordering %s on %s then %s on %s: "
	"not same node",
	other->action->uuid, pe__node_name(first_node),
	then->uuid, pe__node_name(then_node));
	other->type = pe_order_none;
	continue;
	}

	pcmk__clear_updated_flags(changed, then, pcmk__updated_first);

	if ((first->rsc != NULL)
	&& pcmk_is_set(other->type, pe_order_then_cancels_first)
	&& !pcmk_is_set(then->flags, pe_action_optional)) {

	/* 'then' is required, so we must abandon 'first'
	* (e.g. a required stop cancels any agent reload).
	*/
	pe__set_action_flags(other->action, pe_action_optional);
	if (!strcmp(first->task, PCMK_ACTION_RELOAD_AGENT)) {
	pe__clear_resource_flags(first->rsc, pe_rsc_reload);
	}
	}

	if ((first->rsc != NULL) && (then->rsc != NULL)
	&& (first->rsc != then->rsc) && !is_parent(then->rsc, first->rsc)) {
	first = action_for_ordering(first);
	}
	if (first != other->action) {
	pe_rsc_trace(then->rsc, "Ordering %s after %s instead of %s",
	then->uuid, first->uuid, other->action->uuid);
	}

	pe_rsc_trace(then->rsc,
	"%s (%#.6x) then %s (%#.6x): type=%#.6x node=%s",
	first->uuid, first->flags, then->uuid, then->flags,
	other->type, action_node_str(first));

	if (first == other->action) {
	/* 'first' was not remapped (e.g. from 'start' to 'running'), which
	* could mean it is a non-resource action, a primitive resource
	* action, or already expanded.
	*/
	uint32_t first_flags, then_flags;

	first_flags = action_flags_for_ordering(first, then_node);
	then_flags = action_flags_for_ordering(then, first_node);

	changed \|= update_action_for_ordering_flags(first, then,
	first_flags, then_flags,
	other, data_set);

	/* 'first' was for a complex resource (clone, group, etc),
	* create a new dependency if necessary
	*/
	} else if (order_actions(first, then, other->type)) {
	/* This was the first time 'first' and 'then' were associated,
	* start again to get the new actions_before list
	*/
	pcmk__set_updated_flags(changed, then, pcmk__updated_then);
	pe_rsc_trace(then->rsc,
	"Disabled ordering %s then %s in favor of %s then %s",
	other->action->uuid, then->uuid, first->uuid,
	then->uuid);
	other->type = pe_order_none;
	}


	if (pcmk_is_set(changed, pcmk__updated_first)) {
	crm_trace("Re-processing %s and its 'after' actions "
	"because it changed", first->uuid);
	for (GList *lpc2 = first->actions_after; lpc2 != NULL;
	lpc2 = lpc2->next) {
	pe_action_wrapper_t other = (pe_action_wrapper_t ) lpc2->data;

	pcmk__update_action_for_orderings(other->action, data_set);
	}
	pcmk__update_action_for_orderings(first, data_set);
	}
	}

	if (pcmk_is_set(then->flags, pe_action_requires_any)) {
	if (last_flags == then->flags) {
	pcmk__clear_updated_flags(changed, then, pcmk__updated_then);
	} else {
	pcmk__set_updated_flags(changed, then, pcmk__updated_then);
	}
	}

	if (pcmk_is_set(changed, pcmk__updated_then)) {
	crm_trace("Re-processing %s and its 'after' actions because it changed",
	then->uuid);
	if (pcmk_is_set(last_flags, pe_action_runnable)
	&& !pcmk_is_set(then->flags, pe_action_runnable)) {
	pcmk__block_colocation_dependents(then);
	}
	pcmk__update_action_for_orderings(then, data_set);
	for (lpc = then->actions_after; lpc != NULL; lpc = lpc->next) {
	pe_action_wrapper_t other = (pe_action_wrapper_t ) lpc->data;

	pcmk__update_action_for_orderings(other->action, data_set);
	}
	}
	}

	static inline bool
	is_primitive_action(const pe_action_t *action)
	{
	return action && action->rsc && (action->rsc->variant == pe_native);
	}

	/*!
	* \internal
	* \brief Clear a single action flag and set reason text
	*
	* \param[in,out] action Action whose flag should be cleared
	* \param[in] flag Action flag that should be cleared
	* \param[in] reason Action that is the reason why flag is being cleared
	*/
	#define clear_action_flag_because(action, flag, reason) do { \
	if (pcmk_is_set((action)->flags, (flag))) { \
	pe__clear_action_flags(action, flag); \
	if ((action)->rsc != (reason)->rsc) { \
	char *reason_text = pe__action2reason((reason), (flag)); \
	pe_action_set_reason((action), reason_text, false); \
	free(reason_text); \
	} \
	} \
	} while (0)

	/*!
	* \internal
	* \brief Update actions in an asymmetric ordering
	*
	* If the "first" action in an asymmetric ordering is unrunnable, make the
	* "second" action unrunnable as well, if appropriate.
	*
	* \param[in] first 'First' action in an asymmetric ordering
	* \param[in,out] then 'Then' action in an asymmetric ordering
	*/
	static void
	handle_asymmetric_ordering(const pe_action_t first, pe_action_t then)
	{
	/* Only resource actions after an unrunnable 'first' action need updates for
	* asymmetric ordering.
	*/
	if ((then->rsc == NULL) \|\| pcmk_is_set(first->flags, pe_action_runnable)) {
	return;
	}

	// Certain optional 'then' actions are unaffected by unrunnable 'first'
	if (pcmk_is_set(then->flags, pe_action_optional)) {
	enum rsc_role_e then_rsc_role = then->rsc->fns->state(then->rsc, TRUE);

	if ((then_rsc_role == pcmk_role_stopped)
	&& pcmk__str_eq(then->task, PCMK_ACTION_STOP, pcmk__str_none)) {
	/* If 'then' should stop after 'first' but is already stopped, the
	* ordering is irrelevant.
	*/
	return;
	} else if ((then_rsc_role >= pcmk_role_started)
	&& pcmk__str_eq(then->task, PCMK_ACTION_START, pcmk__str_none)
	&& pe__rsc_running_on_only(then->rsc, then->node)) {
	/* Similarly if 'then' should start after 'first' but is already
	* started on a single node.
	*/
	return;
	}
	}

	// 'First' can't run, so 'then' can't either
	clear_action_flag_because(then, pe_action_optional, first);
	clear_action_flag_because(then, pe_action_runnable, first);
	}

	/*!
	* \internal
	* \brief Set action bits appropriately when pe_restart_order is used
	*
	* \param[in,out] first 'First' action in an ordering with pe_restart_order
	* \param[in,out] then 'Then' action in an ordering with pe_restart_order
	* \param[in] filter What action flags to care about
	*
	* \note pe_restart_order is set for "stop resource before starting it" and
	* "stop later group member before stopping earlier group member"
	*/
	static void
	handle_restart_ordering(pe_action_t first, pe_action_t then, uint32_t filter)
	{
	const char *reason = NULL;

	CRM_ASSERT(is_primitive_action(first));
	CRM_ASSERT(is_primitive_action(then));

	// We need to update the action in two cases:

	// ... if 'then' is required
	if (pcmk_is_set(filter, pe_action_optional)
	&& !pcmk_is_set(then->flags, pe_action_optional)) {
	reason = "restart";
	}

	/* ... if 'then' is unrunnable action on same resource (if a resource
	* should restart but can't start, we still want to stop)
	*/
	if (pcmk_is_set(filter, pe_action_runnable)
	&& !pcmk_is_set(then->flags, pe_action_runnable)
	&& pcmk_is_set(then->rsc->flags, pe_rsc_managed)
	&& (first->rsc == then->rsc)) {
	reason = "stop";
	}

	if (reason == NULL) {
	return;
	}

	pe_rsc_trace(first->rsc, "Handling %s -> %s for %s",
	first->uuid, then->uuid, reason);

	// Make 'first' required if it is runnable
	if (pcmk_is_set(first->flags, pe_action_runnable)) {
	clear_action_flag_because(first, pe_action_optional, then);
	}

	// Make 'first' required if 'then' is required
	if (!pcmk_is_set(then->flags, pe_action_optional)) {
	clear_action_flag_because(first, pe_action_optional, then);
	}

	// Make 'first' unmigratable if 'then' is unmigratable
	if (!pcmk_is_set(then->flags, pe_action_migrate_runnable)) {
	clear_action_flag_because(first, pe_action_migrate_runnable, then);
	}

	// Make 'then' unrunnable if 'first' is required but unrunnable
	if (!pcmk_is_set(first->flags, pe_action_optional)
	&& !pcmk_is_set(first->flags, pe_action_runnable)) {
	clear_action_flag_because(then, pe_action_runnable, first);
	}
	}

	/*!
	* \internal
	* \brief Update two actions according to an ordering between them
	*
	* Given information about an ordering of two actions, update the actions' flags
	* (and runnable_before members if appropriate) as appropriate for the ordering.
	* Effects may cascade to other orderings involving the actions as well.
	*
	* \param[in,out] first 'First' action in an ordering
	* \param[in,out] then 'Then' action in an ordering
	* \param[in] node If not NULL, limit scope of ordering to this node
	* (ignored)
	* \param[in] flags Action flags for \p first for ordering purposes
	* \param[in] filter Action flags to limit scope of certain updates (may
	* include pe_action_optional to affect only mandatory
	* actions, and pe_action_runnable to affect only
	* runnable actions)
	* \param[in] type Group of enum pe_ordering flags to apply
	* \param[in,out] data_set Cluster working set
	*
	* \return Group of enum pcmk__updated flags indicating what was updated
	*/
	uint32_t
	pcmk__update_ordered_actions(pe_action_t first, pe_action_t then,
	const pe_node_t *node, uint32_t flags,
	uint32_t filter, uint32_t type,
	pe_working_set_t *data_set)
	{
	uint32_t changed = pcmk__updated_none;
	uint32_t then_flags = 0U;
	uint32_t first_flags = 0U;

	CRM_ASSERT((first != NULL) && (then != NULL) && (data_set != NULL));

	then_flags = then->flags;
	first_flags = first->flags;
	if (pcmk_is_set(type, pe_order_asymmetrical)) {
	handle_asymmetric_ordering(first, then);
	}

	if (pcmk_is_set(type, pe_order_implies_first)
	&& !pcmk_is_set(then_flags, pe_action_optional)) {
	// Then is required, and implies first should be, too

	if (pcmk_is_set(filter, pe_action_optional)
	&& !pcmk_is_set(flags, pe_action_optional)
	&& pcmk_is_set(first_flags, pe_action_optional)) {
	clear_action_flag_because(first, pe_action_optional, then);
	}

	if (pcmk_is_set(flags, pe_action_migrate_runnable)
	&& !pcmk_is_set(then->flags, pe_action_migrate_runnable)) {
	clear_action_flag_because(first, pe_action_migrate_runnable, then);
	}
	}

	if (pcmk_is_set(type, pe_order_promoted_implies_first)
	&& (then->rsc != NULL) && (then->rsc->role == pcmk_role_promoted)
	&& pcmk_is_set(filter, pe_action_optional)
	&& !pcmk_is_set(then->flags, pe_action_optional)) {

	clear_action_flag_because(first, pe_action_optional, then);

	if (pcmk_is_set(first->flags, pe_action_migrate_runnable)
	&& !pcmk_is_set(then->flags, pe_action_migrate_runnable)) {
	clear_action_flag_because(first, pe_action_migrate_runnable,
	then);
	}
	}

	if (pcmk_is_set(type, pe_order_implies_first_migratable)
	&& pcmk_is_set(filter, pe_action_optional)) {

	if (!pcmk_all_flags_set(then->flags, pe_action_migrate_runnable
	\|pe_action_runnable)) {
	clear_action_flag_because(first, pe_action_runnable, then);
	}

	if (!pcmk_is_set(then->flags, pe_action_optional)) {
	clear_action_flag_because(first, pe_action_optional, then);
	}
	}

	if (pcmk_is_set(type, pe_order_pseudo_left)
	&& pcmk_is_set(filter, pe_action_optional)
	&& !pcmk_is_set(first->flags, pe_action_runnable)) {

	clear_action_flag_because(then, pe_action_migrate_runnable, first);
	pe__clear_action_flags(then, pe_action_pseudo);
	}

	if (pcmk_is_set(type, pe_order_runnable_left)
	&& pcmk_is_set(filter, pe_action_runnable)
	&& pcmk_is_set(then->flags, pe_action_runnable)
	&& !pcmk_is_set(flags, pe_action_runnable)) {

	clear_action_flag_because(then, pe_action_runnable, first);
	clear_action_flag_because(then, pe_action_migrate_runnable, first);
	}

	if (pcmk_is_set(type, pe_order_implies_then)
	&& pcmk_is_set(filter, pe_action_optional)
	&& pcmk_is_set(then->flags, pe_action_optional)
	&& !pcmk_is_set(flags, pe_action_optional)
	&& !pcmk_is_set(first->flags, pe_action_migrate_runnable)) {

	clear_action_flag_because(then, pe_action_optional, first);
	}

	if (pcmk_is_set(type, pe_order_restart)) {
	handle_restart_ordering(first, then, filter);
	}

	if (then_flags != then->flags) {
	pcmk__set_updated_flags(changed, first, pcmk__updated_then);
	pe_rsc_trace(then->rsc,
	"%s on %s: flags are now %#.6x (was %#.6x) "
	"because of 'first' %s (%#.6x)",
	then->uuid, pe__node_name(then->node),
	then->flags, then_flags, first->uuid, first->flags);

	if ((then->rsc != NULL) && (then->rsc->parent != NULL)) {
	// Required to handle "X_stop then X_start" for cloned groups
	pcmk__update_action_for_orderings(then, data_set);
	}
	}

	if (first_flags != first->flags) {
	pcmk__set_updated_flags(changed, first, pcmk__updated_first);
	pe_rsc_trace(first->rsc,
	"%s on %s: flags are now %#.6x (was %#.6x) "
	"because of 'then' %s (%#.6x)",
	first->uuid, pe__node_name(first->node),
	first->flags, first_flags, then->uuid, then->flags);
	}

	return changed;
	}

	/*!
	* \internal
	* \brief Trace-log an action (optionally with its dependent actions)
	*
	* \param[in] pre_text If not NULL, prefix the log with this plus ": "
	* \param[in] action Action to log
	* \param[in] details If true, recursively log dependent actions
	*/
	void
	pcmk__log_action(const char pre_text, const pe_action_t action, bool details)
	{
	const char *node_uname = NULL;
	const char *node_uuid = NULL;
	const char *desc = NULL;

	CRM_CHECK(action != NULL, return);

	if (!pcmk_is_set(action->flags, pe_action_pseudo)) {
	if (action->node != NULL) {
	node_uname = action->node->details->uname;
	node_uuid = action->node->details->id;
	} else {
	node_uname = "<none>";
	}
	}

	switch (text2task(action->task)) {
	case stonith_node:
	case shutdown_crm:
	if (pcmk_is_set(action->flags, pe_action_pseudo)) {
	desc = "Pseudo ";
	} else if (pcmk_is_set(action->flags, pe_action_optional)) {
	desc = "Optional ";
	} else if (!pcmk_is_set(action->flags, pe_action_runnable)) {
	desc = "!!Non-Startable!! ";
	} else if (pcmk_is_set(action->flags, pe_action_processed)) {
	desc = "";
	} else {
	desc = "(Provisional) ";
	}
	crm_trace("%s%s%sAction %d: %s%s%s%s%s%s",
	((pre_text == NULL)? "" : pre_text),
	((pre_text == NULL)? "" : ": "),
	desc, action->id, action->uuid,
	(node_uname? "\ton " : ""), (node_uname? node_uname : ""),
	(node_uuid? "\t\t(" : ""), (node_uuid? node_uuid : ""),
	(node_uuid? ")" : ""));
	break;
	default:
	if (pcmk_is_set(action->flags, pe_action_optional)) {
	desc = "Optional ";
	} else if (pcmk_is_set(action->flags, pe_action_pseudo)) {
	desc = "Pseudo ";
	} else if (!pcmk_is_set(action->flags, pe_action_runnable)) {
	desc = "!!Non-Startable!! ";
	} else if (pcmk_is_set(action->flags, pe_action_processed)) {
	desc = "";
	} else {
	desc = "(Provisional) ";
	}
	crm_trace("%s%s%sAction %d: %s %s%s%s%s%s%s",
	((pre_text == NULL)? "" : pre_text),
	((pre_text == NULL)? "" : ": "),
	desc, action->id, action->uuid,
	(action->rsc? action->rsc->id : "<none>"),
	(node_uname? "\ton " : ""), (node_uname? node_uname : ""),
	(node_uuid? "\t\t(" : ""), (node_uuid? node_uuid : ""),
	(node_uuid? ")" : ""));
	break;
	}

	if (details) {
	const GList *iter = NULL;
	const pe_action_wrapper_t *other = NULL;

	crm_trace("\t\t====== Preceding Actions");
	for (iter = action->actions_before; iter != NULL; iter = iter->next) {
	other = (const pe_action_wrapper_t *) iter->data;
	pcmk__log_action("\t\t", other->action, false);
	}
	crm_trace("\t\t====== Subsequent Actions");
	for (iter = action->actions_after; iter != NULL; iter = iter->next) {
	other = (const pe_action_wrapper_t *) iter->data;
	pcmk__log_action("\t\t", other->action, false);
	}
	crm_trace("\t\t====== End");

	} else {
	crm_trace("\t\t(before=%d, after=%d)",
	g_list_length(action->actions_before),
	g_list_length(action->actions_after));
	}
	}

	/*!
	* \internal
	* \brief Create a new shutdown action for a node
	*
	* \param[in,out] node Node being shut down
	*
	* \return Newly created shutdown action for \p node
	*/
	pe_action_t *
	pcmk__new_shutdown_action(pe_node_t *node)
	{
	char *shutdown_id = NULL;
	pe_action_t *shutdown_op = NULL;

	CRM_ASSERT(node != NULL);

	shutdown_id = crm_strdup_printf("%s-%s", PCMK_ACTION_DO_SHUTDOWN,
	node->details->uname);

	shutdown_op = custom_action(NULL, shutdown_id, PCMK_ACTION_DO_SHUTDOWN,
	node, FALSE, TRUE, node->details->data_set);

	pcmk__order_stops_before_shutdown(node, shutdown_op);
	add_hash_param(shutdown_op->meta, XML_ATTR_TE_NOWAIT, XML_BOOLEAN_TRUE);
	return shutdown_op;
	}

	/*!
	* \internal
	* \brief Calculate and add an operation digest to XML
	*
	* Calculate an operation digest, which enables us to later determine when a
	* restart is needed due to the resource's parameters being changed, and add it
	* to given XML.
	*
	* \param[in] op Operation result from executor
	* \param[in,out] update XML to add digest to
	*/
	static void
	add_op_digest_to_xml(const lrmd_event_data_t op, xmlNode update)
	{
	char *digest = NULL;
	xmlNode *args_xml = NULL;

	if (op->params == NULL) {
	return;
	}
	args_xml = create_xml_node(NULL, XML_TAG_PARAMS);
	g_hash_table_foreach(op->params, hash2field, args_xml);
	pcmk__filter_op_for_digest(args_xml);
	digest = calculate_operation_digest(args_xml, NULL);
	crm_xml_add(update, XML_LRM_ATTR_OP_DIGEST, digest);
	free_xml(args_xml);
	free(digest);
	}

	#define FAKE_TE_ID "xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx"

	/*!
	* \internal
	* \brief Create XML for resource operation history update
	*
	* \param[in,out] parent Parent XML node to add to
	* \param[in,out] op Operation event data
	* \param[in] caller_version DC feature set
	* \param[in] target_rc Expected result of operation
	* \param[in] node Name of node on which operation was performed
	* \param[in] origin Arbitrary description of update source
	*
	* \return Newly created XML node for history update
	*/
	xmlNode *
	pcmk__create_history_xml(xmlNode parent, lrmd_event_data_t op,
	const char *caller_version, int target_rc,
	const char node, const char origin)
	{
	char *key = NULL;
	char *magic = NULL;
	char *op_id = NULL;
	char *op_id_additional = NULL;
	char *local_user_data = NULL;
	const char *exit_reason = NULL;

	xmlNode *xml_op = NULL;
	const char *task = NULL;

	CRM_CHECK(op != NULL, return NULL);
	crm_trace("Creating history XML for %s-interval %s action for %s on %s "
	"(DC version: %s, origin: %s)",
	pcmk__readable_interval(op->interval_ms), op->op_type, op->rsc_id,
	((node == NULL)? "no node" : node), caller_version, origin);

	task = op->op_type;

	/* Record a successful agent reload as a start, and a failed one as a
	* monitor, to make life easier for the scheduler when determining the
	* current state.
	*
	* @COMPAT We should check "reload" here only if the operation was for a
	* pre-OCF-1.1 resource agent, but we don't know that here, and we should
	* only ever get results for actions scheduled by us, so we can reasonably
	* assume any "reload" is actually a pre-1.1 agent reload.
	*/
	if (pcmk__str_any_of(task, PCMK_ACTION_RELOAD, PCMK_ACTION_RELOAD_AGENT,
	NULL)) {
	if (op->op_status == PCMK_EXEC_DONE) {
	task = PCMK_ACTION_START;
	} else {
	task = PCMK_ACTION_MONITOR;
	}
	}

	key = pcmk__op_key(op->rsc_id, task, op->interval_ms);
	if (pcmk__str_eq(task, PCMK_ACTION_NOTIFY, pcmk__str_none)) {
	const char *n_type = crm_meta_value(op->params, "notify_type");
	const char *n_task = crm_meta_value(op->params, "notify_operation");

	CRM_LOG_ASSERT(n_type != NULL);
	CRM_LOG_ASSERT(n_task != NULL);
	op_id = pcmk__notify_key(op->rsc_id, n_type, n_task);

	if (op->op_status != PCMK_EXEC_PENDING) {
	/* Ignore notify errors.
	*
	* @TODO It might be better to keep the correct result here, and
	* ignore it in process_graph_event().
	*/
	lrmd__set_result(op, PCMK_OCF_OK, PCMK_EXEC_DONE, NULL);
	}

	/* Migration history is preserved separately, which usually matters for
	* multiple nodes and is important for future cluster transitions.
	*/
	} else if (pcmk__str_any_of(op->op_type, PCMK_ACTION_MIGRATE_TO,
	PCMK_ACTION_MIGRATE_FROM, NULL)) {
	op_id = strdup(key);

	} else if (did_rsc_op_fail(op, target_rc)) {
	op_id = pcmk__op_key(op->rsc_id, "last_failure", 0);
	if (op->interval_ms == 0) {
	// Ensure 'last' gets updated, in case record-pending is true
	op_id_additional = pcmk__op_key(op->rsc_id, "last", 0);
	}
	exit_reason = op->exit_reason;

	} else if (op->interval_ms > 0) {
	op_id = strdup(key);

	} else {
	op_id = pcmk__op_key(op->rsc_id, "last", 0);
	}

	again:
	xml_op = pcmk__xe_match(parent, XML_LRM_TAG_RSC_OP, XML_ATTR_ID, op_id);
	if (xml_op == NULL) {
	xml_op = create_xml_node(parent, XML_LRM_TAG_RSC_OP);
	}

	if (op->user_data == NULL) {
	crm_debug("Generating fake transition key for: " PCMK__OP_FMT
	" %d from %s", op->rsc_id, op->op_type, op->interval_ms,
	op->call_id, origin);
	local_user_data = pcmk__transition_key(-1, op->call_id, target_rc,
	FAKE_TE_ID);
	op->user_data = local_user_data;
	}

	if (magic == NULL) {
	magic = crm_strdup_printf("%d:%d;%s", op->op_status, op->rc,
	(const char *) op->user_data);
	}

	crm_xml_add(xml_op, XML_ATTR_ID, op_id);
	crm_xml_add(xml_op, XML_LRM_ATTR_TASK_KEY, key);
	crm_xml_add(xml_op, XML_LRM_ATTR_TASK, task);
	crm_xml_add(xml_op, XML_ATTR_ORIGIN, origin);
	crm_xml_add(xml_op, XML_ATTR_CRM_VERSION, caller_version);
	crm_xml_add(xml_op, XML_ATTR_TRANSITION_KEY, op->user_data);
	crm_xml_add(xml_op, XML_ATTR_TRANSITION_MAGIC, magic);
	crm_xml_add(xml_op, XML_LRM_ATTR_EXIT_REASON, pcmk__s(exit_reason, ""));
	crm_xml_add(xml_op, XML_LRM_ATTR_TARGET, node); // For context during triage

	crm_xml_add_int(xml_op, XML_LRM_ATTR_CALLID, op->call_id);
	crm_xml_add_int(xml_op, XML_LRM_ATTR_RC, op->rc);
	crm_xml_add_int(xml_op, XML_LRM_ATTR_OPSTATUS, op->op_status);
	crm_xml_add_ms(xml_op, XML_LRM_ATTR_INTERVAL_MS, op->interval_ms);

	if (compare_version("2.1", caller_version) <= 0) {
	if (op->t_run \|\| op->t_rcchange \|\| op->exec_time \|\| op->queue_time) {
	crm_trace("Timing data (" PCMK__OP_FMT
	"): last=%u change=%u exec=%u queue=%u",
	op->rsc_id, op->op_type, op->interval_ms,
	op->t_run, op->t_rcchange, op->exec_time, op->queue_time);

	if ((op->interval_ms != 0) && (op->t_rcchange != 0)) {
	// Recurring ops may have changed rc after initial run
	crm_xml_add_ll(xml_op, XML_RSC_OP_LAST_CHANGE,
	(long long) op->t_rcchange);
	} else {
	crm_xml_add_ll(xml_op, XML_RSC_OP_LAST_CHANGE,
	(long long) op->t_run);
	}

	crm_xml_add_int(xml_op, XML_RSC_OP_T_EXEC, op->exec_time);
	crm_xml_add_int(xml_op, XML_RSC_OP_T_QUEUE, op->queue_time);
	}
	}

	if (pcmk__str_any_of(op->op_type, PCMK_ACTION_MIGRATE_TO,
	PCMK_ACTION_MIGRATE_FROM, NULL)) {
	/*
	* Record migrate_source and migrate_target always for migrate ops.
	*/
	const char *name = XML_LRM_ATTR_MIGRATE_SOURCE;

	crm_xml_add(xml_op, name, crm_meta_value(op->params, name));

	name = XML_LRM_ATTR_MIGRATE_TARGET;
	crm_xml_add(xml_op, name, crm_meta_value(op->params, name));
	}

	add_op_digest_to_xml(op, xml_op);

	if (op_id_additional) {
	free(op_id);
	op_id = op_id_additional;
	op_id_additional = NULL;
	goto again;
	}

	if (local_user_data) {
	free(local_user_data);
	op->user_data = NULL;
	}
	free(magic);
	free(op_id);
	free(key);
	return xml_op;
	}

	/*!
	* \internal
	* \brief Check whether an action shutdown-locks a resource to a node
	*
	* If the shutdown-lock cluster property is set, resources will not be recovered
	* on a different node if cleanly stopped, and may start only on that same node.
	* This function checks whether that applies to a given action, so that the
	* transition graph can be marked appropriately.
	*
	* \param[in] action Action to check
	*
	* \return true if \p action locks its resource to the action's node,
	* otherwise false
	*/
	bool
	pcmk__action_locks_rsc_to_node(const pe_action_t *action)
	{
	// Only resource actions taking place on resource's lock node are locked
	if ((action == NULL) \|\| (action->rsc == NULL)
	\|\| !pe__same_node(action->node, action->rsc->lock_node)) {
	return false;
	}

	/* During shutdown, only stops are locked (otherwise, another action such as
	* a demote would cause the controller to clear the lock)
	*/
	if (action->node->details->shutdown && (action->task != NULL)
	&& (strcmp(action->task, PCMK_ACTION_STOP) != 0)) {
	return false;
	}

	return true;
	}

	/* lowest to highest */
	static gint
	sort_action_id(gconstpointer a, gconstpointer b)
	{
	const pe_action_wrapper_t action_wrapper2 = (const pe_action_wrapper_t )a;
	const pe_action_wrapper_t action_wrapper1 = (const pe_action_wrapper_t )b;

	if (a == NULL) {
	return 1;
	}
	if (b == NULL) {
	return -1;
	}
	if (action_wrapper1->action->id < action_wrapper2->action->id) {
	return 1;
	}
	if (action_wrapper1->action->id > action_wrapper2->action->id) {
	return -1;
	}
	return 0;
	}

	/*!
	* \internal
	* \brief Remove any duplicate action inputs, merging action flags
	*
	* \param[in,out] action Action whose inputs should be checked
	*/
	void
	pcmk__deduplicate_action_inputs(pe_action_t *action)
	{
	GList *item = NULL;
	GList *next = NULL;
	pe_action_wrapper_t *last_input = NULL;

	action->actions_before = g_list_sort(action->actions_before,
	sort_action_id);
	for (item = action->actions_before; item != NULL; item = next) {
	pe_action_wrapper_t input = (pe_action_wrapper_t ) item->data;

	next = item->next;
	if ((last_input != NULL)
	&& (input->action->id == last_input->action->id)) {
	crm_trace("Input %s (%d) duplicate skipped for action %s (%d)",
	input->action->uuid, input->action->id,
	action->uuid, action->id);

	/* For the purposes of scheduling, the ordering flags no longer
	* matter, but crm_simulate looks at certain ones when creating a
	* dot graph. Combining the flags is sufficient for that purpose.
	*/
	last_input->type \|= input->type;
	if (input->state == pe_link_dumped) {
	last_input->state = pe_link_dumped;
	}

	free(item->data);
	action->actions_before = g_list_delete_link(action->actions_before,
	item);
	} else {
	last_input = input;
	input->state = pe_link_not_dumped;
	}
	}
	}

	/*!
	* \internal
	* \brief Output all scheduled actions
	*
	* \param[in,out] data_set Cluster working set
	*/
	void
	pcmk__output_actions(pe_working_set_t *data_set)
	{
	pcmk__output_t *out = data_set->priv;

	// Output node (non-resource) actions
	for (GList *iter = data_set->actions; iter != NULL; iter = iter->next) {
	char *node_name = NULL;
	char *task = NULL;
	pe_action_t action = (pe_action_t ) iter->data;

	if (action->rsc != NULL) {
	continue; // Resource actions will be output later

	} else if (pcmk_is_set(action->flags, pe_action_optional)) {
	continue; // This action was not scheduled
	}

	if (pcmk__str_eq(action->task, PCMK_ACTION_DO_SHUTDOWN,
	pcmk__str_none)) {
	task = strdup("Shutdown");

	} else if (pcmk__str_eq(action->task, PCMK_ACTION_STONITH,
	pcmk__str_none)) {
	const char *op = g_hash_table_lookup(action->meta,
	"stonith_action");

	task = crm_strdup_printf("Fence (%s)", op);

	} else {
	continue; // Don't display other node action types
	}

	if (pe__is_guest_node(action->node)) {
	const pe_resource_t *remote = action->node->details->remote_rsc;

	node_name = crm_strdup_printf("%s (resource: %s)",
	pe__node_name(action->node),
	remote->container->id);
	} else if (action->node != NULL) {
	node_name = crm_strdup_printf("%s", pe__node_name(action->node));
	}

	out->message(out, "node-action", task, node_name, action->reason);

	free(node_name);
	free(task);
	}

	// Output resource actions
	for (GList *iter = data_set->resources; iter != NULL; iter = iter->next) {
	pe_resource_t rsc = (pe_resource_t ) iter->data;

	rsc->cmds->output_actions(rsc);
	}
	}

	/*!
	* \internal
	* \brief Check whether action from resource history is still in configuration
	*
	* \param[in] rsc Resource that action is for
	* \param[in] task Action's name
	* \param[in] interval_ms Action's interval (in milliseconds)
	*
	* \return true if action is still in resource configuration, otherwise false
	*/
	static bool
	action_in_config(const pe_resource_t rsc, const char task, guint interval_ms)
	{
	char *key = pcmk__op_key(rsc->id, task, interval_ms);
	bool config = (find_rsc_op_entry(rsc, key) != NULL);

	free(key);
	return config;
	}

	/*!
	* \internal
	* \brief Get action name needed to compare digest for configuration changes
	*
	* \param[in] task Action name from history
	* \param[in] interval_ms Action interval (in milliseconds)
	*
	* \return Action name whose digest should be compared
	*/
	static const char *
	task_for_digest(const char *task, guint interval_ms)
	{
	/* Certain actions need to be compared against the parameters used to start
	* the resource.
	*/
	if ((interval_ms == 0)
	&& pcmk__str_any_of(task, PCMK_ACTION_MONITOR, PCMK_ACTION_MIGRATE_FROM,
	PCMK_ACTION_PROMOTE, NULL)) {
	task = PCMK_ACTION_START;
	}
	return task;
	}

	/*!
	* \internal
	* \brief Check whether only sanitized parameters to an action changed
	*
	* When collecting CIB files for troubleshooting, crm_report will mask
	* sensitive resource parameters. If simulations were run using that, affected
	* resources would appear to need a restart, which would complicate
	* troubleshooting. To avoid that, we save a "secure digest" of non-sensitive
	* parameters. This function used that digest to check whether only masked
	* parameters are different.
	*
	* \param[in] xml_op Resource history entry with secure digest
	* \param[in] digest_data Operation digest information being compared
	* \param[in] data_set Cluster working set
	*
	* \return true if only sanitized parameters changed, otherwise false
	*/
	static bool
	only_sanitized_changed(const xmlNode *xml_op,
	const op_digest_cache_t *digest_data,
	const pe_working_set_t *data_set)
	{
	const char *digest_secure = NULL;

	if (!pcmk_is_set(data_set->flags, pe_flag_sanitized)) {
	// The scheduler is not being run as a simulation
	return false;
	}

	digest_secure = crm_element_value(xml_op, XML_LRM_ATTR_SECURE_DIGEST);

	return (digest_data->rc != RSC_DIGEST_MATCH) && (digest_secure != NULL)
	&& (digest_data->digest_secure_calc != NULL)
	&& (strcmp(digest_data->digest_secure_calc, digest_secure) == 0);
	}

	/*!
	* \internal
	* \brief Force a restart due to a configuration change
	*
	* \param[in,out] rsc Resource that action is for
	* \param[in] task Name of action whose configuration changed
	* \param[in] interval_ms Action interval (in milliseconds)
	* \param[in,out] node Node where resource should be restarted
	*/
	static void
	force_restart(pe_resource_t rsc, const char task, guint interval_ms,
	pe_node_t *node)
	{
	char *key = pcmk__op_key(rsc->id, task, interval_ms);
	pe_action_t *required = custom_action(rsc, key, task, NULL, FALSE, TRUE,
	rsc->cluster);

	pe_action_set_reason(required, "resource definition change", true);
	trigger_unfencing(rsc, node, "Device parameters changed", NULL,
	rsc->cluster);
	}

	/*!
	* \internal
	* \brief Schedule a reload of a resource on a node
	*
	* \param[in,out] data Resource to reload
	* \param[in] user_data Where resource should be reloaded
	*/
	static void
	schedule_reload(gpointer data, gpointer user_data)
	{
	pe_resource_t *rsc = data;
	const pe_node_t *node = user_data;
	pe_action_t *reload = NULL;

	// For collective resources, just call recursively for children
	if (rsc->variant > pe_native) {
	g_list_foreach(rsc->children, schedule_reload, user_data);
	return;
	}

	// Skip the reload in certain situations
	if ((node == NULL)
	\|\| !pcmk_is_set(rsc->flags, pe_rsc_managed)
	\|\| pcmk_is_set(rsc->flags, pe_rsc_failed)) {
	pe_rsc_trace(rsc, "Skip reload of %s:%s%s %s",
	rsc->id,
	pcmk_is_set(rsc->flags, pe_rsc_managed)? "" : " unmanaged",
	pcmk_is_set(rsc->flags, pe_rsc_failed)? " failed" : "",
	(node == NULL)? "inactive" : node->details->uname);
	return;
	}

	/* If a resource's configuration changed while a start was pending,
	* force a full restart instead of a reload.
	*/
	if (pcmk_is_set(rsc->flags, pe_rsc_start_pending)) {
	pe_rsc_trace(rsc, "%s: preventing agent reload because start pending",
	rsc->id);
	custom_action(rsc, stop_key(rsc), PCMK_ACTION_STOP, node, FALSE, TRUE,
	rsc->cluster);
	return;
	}

	// Schedule the reload
	pe__set_resource_flags(rsc, pe_rsc_reload);
	reload = custom_action(rsc, reload_key(rsc), PCMK_ACTION_RELOAD_AGENT, node,
	FALSE, TRUE, rsc->cluster);
	pe_action_set_reason(reload, "resource definition change", FALSE);

	// Set orderings so that a required stop or demote cancels the reload
	pcmk__new_ordering(NULL, NULL, reload, rsc, stop_key(rsc), NULL,
	pe_order_optional\|pe_order_then_cancels_first,
	rsc->cluster);
	pcmk__new_ordering(NULL, NULL, reload, rsc, demote_key(rsc), NULL,
	pe_order_optional\|pe_order_then_cancels_first,
	rsc->cluster);
	}

	/*!
	* \internal
	* \brief Handle any configuration change for an action
	*
	* Given an action from resource history, if the resource's configuration
	* changed since the action was done, schedule any actions needed (restart,
	* reload, unfencing, rescheduling recurring actions, etc.).
	*
	* \param[in,out] rsc Resource that action is for
	* \param[in,out] node Node that action was on
	* \param[in] xml_op Action XML from resource history
	*
	* \return true if action configuration changed, otherwise false
	*/
	bool
	pcmk__check_action_config(pe_resource_t rsc, pe_node_t node,
	const xmlNode *xml_op)
	{
	guint interval_ms = 0;
	const char *task = NULL;
	const op_digest_cache_t *digest_data = NULL;

	CRM_CHECK((rsc != NULL) && (node != NULL) && (xml_op != NULL),
	return false);

	task = crm_element_value(xml_op, XML_LRM_ATTR_TASK);
	CRM_CHECK(task != NULL, return false);

	crm_element_value_ms(xml_op, XML_LRM_ATTR_INTERVAL_MS, &interval_ms);

	// If this is a recurring action, check whether it has been orphaned
	if (interval_ms > 0) {
	if (action_in_config(rsc, task, interval_ms)) {
	pe_rsc_trace(rsc, "%s-interval %s for %s on %s is in configuration",
	pcmk__readable_interval(interval_ms), task, rsc->id,
	pe__node_name(node));
	} else if (pcmk_is_set(rsc->cluster->flags,
	pe_flag_stop_action_orphans)) {
	pcmk__schedule_cancel(rsc,
	crm_element_value(xml_op,
	XML_LRM_ATTR_CALLID),
	task, interval_ms, node, "orphan");
	return true;
	} else {
	pe_rsc_debug(rsc, "%s-interval %s for %s on %s is orphaned",
	pcmk__readable_interval(interval_ms), task, rsc->id,
	pe__node_name(node));
	return true;
	}
	}

	crm_trace("Checking %s-interval %s for %s on %s for configuration changes",
	pcmk__readable_interval(interval_ms), task, rsc->id,
	pe__node_name(node));
	task = task_for_digest(task, interval_ms);
	digest_data = rsc_action_digest_cmp(rsc, xml_op, node, rsc->cluster);

	if (only_sanitized_changed(xml_op, digest_data, rsc->cluster)) {
	if (!pcmk__is_daemon && (rsc->cluster->priv != NULL)) {
	pcmk__output_t *out = rsc->cluster->priv;

	out->info(out,
	"Only 'private' parameters to %s-interval %s for %s "
	"on %s changed: %s",
	pcmk__readable_interval(interval_ms), task, rsc->id,
	pe__node_name(node),
	crm_element_value(xml_op, XML_ATTR_TRANSITION_MAGIC));
	}
	return false;
	}

	switch (digest_data->rc) {
	case RSC_DIGEST_RESTART:
	crm_log_xml_debug(digest_data->params_restart, "params:restart");
	force_restart(rsc, task, interval_ms, node);
	return true;

	case RSC_DIGEST_ALL:
	case RSC_DIGEST_UNKNOWN:
	// Changes that can potentially be handled by an agent reload

	if (interval_ms > 0) {
	/* Recurring actions aren't reloaded per se, they are just
	* re-scheduled so the next run uses the new parameters.
	* The old instance will be cancelled automatically.
	*/
	crm_log_xml_debug(digest_data->params_all, "params:reschedule");
	pcmk__reschedule_recurring(rsc, task, interval_ms, node);

	} else if (crm_element_value(xml_op,
	XML_LRM_ATTR_RESTART_DIGEST) != NULL) {
	// Agent supports reload, so use it
	trigger_unfencing(rsc, node,
	"Device parameters changed (reload)", NULL,
	rsc->cluster);
	crm_log_xml_debug(digest_data->params_all, "params:reload");
	schedule_reload((gpointer) rsc, (gpointer) node);

	} else {
	pe_rsc_trace(rsc,
	"Restarting %s "
	"because agent doesn't support reload", rsc->id);
	crm_log_xml_debug(digest_data->params_restart,
	"params:restart");
	force_restart(rsc, task, interval_ms, node);
	}
	return true;

	default:
	break;
	}
	return false;
	}

	/*!
	* \internal
	* \brief Create a list of resource's action history entries, sorted by call ID
	*
	* \param[in] rsc_entry Resource's <lrm_rsc_op> status XML
	* \param[out] start_index Where to store index of start-like action, if any
	* \param[out] stop_index Where to store index of stop action, if any
	*/
	static GList *
	rsc_history_as_list(const xmlNode rsc_entry, int start_index, int *stop_index)
	{
	GList *ops = NULL;

	for (xmlNode *rsc_op = first_named_child(rsc_entry, XML_LRM_TAG_RSC_OP);
	rsc_op != NULL; rsc_op = crm_next_same_xml(rsc_op)) {
	ops = g_list_prepend(ops, rsc_op);
	}
	ops = g_list_sort(ops, sort_op_by_callid);
	calculate_active_ops(ops, start_index, stop_index);
	return ops;
	}

	/*!
	* \internal
	* \brief Process a resource's action history from the CIB status
	*
	* Given a resource's action history, if the resource's configuration
	* changed since the actions were done, schedule any actions needed (restart,
	* reload, unfencing, rescheduling recurring actions, clean-up, etc.).
	* (This also cancels recurring actions for maintenance mode, which is not
	* entirely related but convenient to do here.)
	*
	* \param[in] rsc_entry Resource's <lrm_rsc_op> status XML
	* \param[in,out] rsc Resource whose history is being processed
	* \param[in,out] node Node whose history is being processed
	*/
	static void
	process_rsc_history(const xmlNode rsc_entry, pe_resource_t rsc,
	pe_node_t *node)
	{
	int offset = -1;
	int stop_index = 0;
	int start_index = 0;
	GList *sorted_op_list = NULL;

	if (pcmk_is_set(rsc->flags, pe_rsc_orphan)) {
	if (pe_rsc_is_anon_clone(pe__const_top_resource(rsc, false))) {
	pe_rsc_trace(rsc,
	"Skipping configuration check "
	"for orphaned clone instance %s",
	rsc->id);
	} else {
	pe_rsc_trace(rsc,
	"Skipping configuration check and scheduling clean-up "
	"for orphaned resource %s", rsc->id);
	pcmk__schedule_cleanup(rsc, node, false);
	}
	return;
	}

	if (pe_find_node_id(rsc->running_on, node->details->id) == NULL) {
	if (pcmk__rsc_agent_changed(rsc, node, rsc_entry, false)) {
	pcmk__schedule_cleanup(rsc, node, false);
	}
	pe_rsc_trace(rsc,
	"Skipping configuration check for %s "
	"because no longer active on %s",
	rsc->id, pe__node_name(node));
	return;
	}

	pe_rsc_trace(rsc, "Checking for configuration changes for %s on %s",
	rsc->id, pe__node_name(node));

	if (pcmk__rsc_agent_changed(rsc, node, rsc_entry, true)) {
	pcmk__schedule_cleanup(rsc, node, false);
	}

	sorted_op_list = rsc_history_as_list(rsc_entry, &start_index, &stop_index);
	if (start_index < stop_index) {
	return; // Resource is stopped
	}

	for (GList *iter = sorted_op_list; iter != NULL; iter = iter->next) {
	xmlNode rsc_op = (xmlNode ) iter->data;
	const char *task = NULL;
	guint interval_ms = 0;

	if (++offset < start_index) {
	// Skip actions that happened before a start
	continue;
	}

	task = crm_element_value(rsc_op, XML_LRM_ATTR_TASK);
	crm_element_value_ms(rsc_op, XML_LRM_ATTR_INTERVAL_MS, &interval_ms);

	if ((interval_ms > 0)
	&& (pcmk_is_set(rsc->flags, pe_rsc_maintenance)
	\|\| node->details->maintenance)) {
	// Maintenance mode cancels recurring operations
	pcmk__schedule_cancel(rsc,
	crm_element_value(rsc_op,
	XML_LRM_ATTR_CALLID),
	task, interval_ms, node, "maintenance mode");

	} else if ((interval_ms > 0)
	\|\| pcmk__strcase_any_of(task, PCMK_ACTION_MONITOR,
	PCMK_ACTION_START,
	PCMK_ACTION_PROMOTE,
	PCMK_ACTION_MIGRATE_FROM, NULL)) {
	/* If a resource operation failed, and the operation's definition
	* has changed, clear any fail count so they can be retried fresh.
	*/

	if (pe__bundle_needs_remote_name(rsc)) {
	/* We haven't assigned resources to nodes yet, so if the
	* REMOTE_CONTAINER_HACK is used, we may calculate the digest
	* based on the literal "#uname" value rather than the properly
	* substituted value. That would mistakenly make the action
	* definition appear to have been changed. Defer the check until
	* later in this case.
	*/
	pe__add_param_check(rsc_op, rsc, node, pe_check_active,
	rsc->cluster);

	} else if (pcmk__check_action_config(rsc, node, rsc_op)
	&& (pe_get_failcount(node, rsc, NULL, pe_fc_effective,
	NULL) != 0)) {
	pe__clear_failcount(rsc, node, "action definition changed",
	rsc->cluster);
	}
	}
	}
	g_list_free(sorted_op_list);
	}

	/*!
	* \internal
	* \brief Process a node's action history from the CIB status
	*
	* Given a node's resource history, if the resource's configuration changed
	* since the actions were done, schedule any actions needed (restart,
	* reload, unfencing, rescheduling recurring actions, clean-up, etc.).
	* (This also cancels recurring actions for maintenance mode, which is not
	* entirely related but convenient to do here.)
	*
	* \param[in,out] node Node whose history is being processed
	* \param[in] lrm_rscs Node's <lrm_resources> from CIB status XML
	*/
	static void
	process_node_history(pe_node_t node, const xmlNode lrm_rscs)
	{
	crm_trace("Processing node history for %s", pe__node_name(node));
	for (const xmlNode *rsc_entry = first_named_child(lrm_rscs,
	XML_LRM_TAG_RESOURCE);
	rsc_entry != NULL; rsc_entry = crm_next_same_xml(rsc_entry)) {

	if (rsc_entry->children != NULL) {
	GList *result = pcmk__rscs_matching_id(ID(rsc_entry),
	node->details->data_set);

	for (GList *iter = result; iter != NULL; iter = iter->next) {
	pe_resource_t rsc = (pe_resource_t ) iter->data;

	if (rsc->variant == pe_native) {
	process_rsc_history(rsc_entry, rsc, node);
	}
	}
	g_list_free(result);
	}
	}
	}

	// XPath to find a node's resource history
	#define XPATH_NODE_HISTORY "/" XML_TAG_CIB "/" XML_CIB_TAG_STATUS \
	"/" XML_CIB_TAG_STATE "[@" XML_ATTR_UNAME "='%s']" \
	"/" XML_CIB_TAG_LRM "/" XML_LRM_TAG_RESOURCES

	/*!
	* \internal
	* \brief Process any resource configuration changes in the CIB status
	*
	* Go through all nodes' resource history, and if a resource's configuration
	* changed since its actions were done, schedule any actions needed (restart,
	* reload, unfencing, rescheduling recurring actions, clean-up, etc.).
	* (This also cancels recurring actions for maintenance mode, which is not
	* entirely related but convenient to do here.)
	*
	* \param[in,out] data_set Cluster working set
	*/
	void
	pcmk__handle_rsc_config_changes(pe_working_set_t *data_set)
	{
	crm_trace("Check resource and action configuration for changes");

	/* Rather than iterate through the status section, iterate through the nodes
	* and search for the appropriate status subsection for each. This skips
	* orphaned nodes and lets us eliminate some cases before searching the XML.
	*/
	for (GList *iter = data_set->nodes; iter != NULL; iter = iter->next) {
	pe_node_t node = (pe_node_t ) iter->data;

	/* Don't bother checking actions for a node that can't run actions ...
	* unless it's in maintenance mode, in which case we still need to
	* cancel any existing recurring monitors.
	*/
	if (node->details->maintenance
	\|\| pcmk__node_available(node, false, false)) {

	char *xpath = NULL;
	xmlNode *history = NULL;

	xpath = crm_strdup_printf(XPATH_NODE_HISTORY, node->details->uname);
	history = get_xpath_object(xpath, data_set->input, LOG_NEVER);
	free(xpath);

	process_node_history(node, history);
	}
	}
	}
	diff --git a/lib/pacemaker/pcmk_sched_remote.c b/lib/pacemaker/pcmk_sched_remote.c
	index f6b10e86a8..1dbdfbe430 100644
	--- a/lib/pacemaker/pcmk_sched_remote.c
	+++ b/lib/pacemaker/pcmk_sched_remote.c
	@@ -1,725 +1,725 @@
	/*
	* 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 <crm/crm.h>
	#include <crm/cib.h>
	#include <crm/msg_xml.h>
	#include <crm/common/xml.h>
	#include <crm/common/xml_internal.h>

	#include <glib.h>

	#include <crm/pengine/status.h>
	#include <pacemaker-internal.h>
	#include "libpacemaker_private.h"

	enum remote_connection_state {
	remote_state_unknown = 0,
	remote_state_alive = 1,
	remote_state_resting = 2,
	remote_state_failed = 3,
	remote_state_stopped = 4
	};

	static const char *
	state2text(enum remote_connection_state state)
	{
	switch (state) {
	case remote_state_unknown:
	return "unknown";
	case remote_state_alive:
	return "alive";
	case remote_state_resting:
	return "resting";
	case remote_state_failed:
	return "failed";
	case remote_state_stopped:
	return "stopped";
	}

	return "impossible";
	}

	/* We always use pe_order_preserve with these convenience functions to exempt
	* internally generated constraints from the prohibition of user constraints
	* involving remote connection resources.
	*
	* The start ordering additionally uses pe_order_runnable_left so that the
	* specified action is not runnable if the start is not runnable.
	*/

	static inline void
	order_start_then_action(pe_resource_t first_rsc, pe_action_t then_action,
	uint32_t extra)
	{
	if ((first_rsc != NULL) && (then_action != NULL)) {
	pcmk__new_ordering(first_rsc, start_key(first_rsc), NULL,
	then_action->rsc, NULL, then_action,
	pe_order_preserve\|pe_order_runnable_left\|extra,
	first_rsc->cluster);
	}
	}

	static inline void
	order_action_then_stop(pe_action_t first_action, pe_resource_t then_rsc,
	uint32_t extra)
	{
	if ((first_action != NULL) && (then_rsc != NULL)) {
	pcmk__new_ordering(first_action->rsc, NULL, first_action,
	then_rsc, stop_key(then_rsc), NULL,
	pe_order_preserve\|extra, then_rsc->cluster);
	}
	}

	static enum remote_connection_state
	get_remote_node_state(const pe_node_t *node)
	{
	const pe_resource_t *remote_rsc = NULL;
	const pe_node_t *cluster_node = NULL;

	CRM_ASSERT(node != NULL);

	remote_rsc = node->details->remote_rsc;
	CRM_ASSERT(remote_rsc != NULL);

	cluster_node = pe__current_node(remote_rsc);

	/* If the cluster node the remote connection resource resides on
	* is unclean or went offline, we can't process any operations
	* on that remote node until after it starts elsewhere.
	*/
	if ((remote_rsc->next_role == pcmk_role_stopped)
	\|\| (remote_rsc->allocated_to == NULL)) {

	// The connection resource is not going to run anywhere

	if ((cluster_node != NULL) && cluster_node->details->unclean) {
	/* The remote connection is failed because its resource is on a
	* failed node and can't be recovered elsewhere, so we must fence.
	*/
	return remote_state_failed;
	}

	if (!pcmk_is_set(remote_rsc->flags, pe_rsc_failed)) {
	/* Connection resource is cleanly stopped */
	return remote_state_stopped;
	}

	/* Connection resource is failed */

	if ((remote_rsc->next_role == pcmk_role_stopped)
	&& remote_rsc->remote_reconnect_ms
	&& node->details->remote_was_fenced
	&& !pe__shutdown_requested(node)) {

	/* We won't know whether the connection is recoverable until the
	* reconnect interval expires and we reattempt connection.
	*/
	return remote_state_unknown;
	}

	/* The remote connection is in a failed state. If there are any
	* resources known to be active on it (stop) or in an unknown state
	* (probe), we must assume the worst and fence it.
	*/
	return remote_state_failed;

	} else if (cluster_node == NULL) {
	/* Connection is recoverable but not currently running anywhere, so see
	* if we can recover it first
	*/
	return remote_state_unknown;

	} else if (cluster_node->details->unclean
	\|\| !(cluster_node->details->online)) {
	// Connection is running on a dead node, see if we can recover it first
	return remote_state_resting;

	} else if (pcmk__list_of_multiple(remote_rsc->running_on)
	&& (remote_rsc->partial_migration_source != NULL)
	&& (remote_rsc->partial_migration_target != NULL)) {
	/* We're in the middle of migrating a connection resource, so wait until
	* after the migration completes before performing any actions.
	*/
	return remote_state_resting;

	}
	return remote_state_alive;
	}

	/*!
	* \internal
	* \brief Order actions on remote node relative to actions for the connection
	*
	* \param[in,out] action An action scheduled on a Pacemaker Remote node
	*/
	static void
	apply_remote_ordering(pe_action_t *action)
	{
	pe_resource_t *remote_rsc = NULL;
	enum action_tasks task = text2task(action->task);
	enum remote_connection_state state = get_remote_node_state(action->node);

	uint32_t order_opts = pe_order_none;

	if (action->rsc == NULL) {
	return;
	}

	CRM_ASSERT(pe__is_guest_or_remote_node(action->node));

	remote_rsc = action->node->details->remote_rsc;
	CRM_ASSERT(remote_rsc != NULL);

	crm_trace("Order %s action %s relative to %s%s (state: %s)",
	action->task, action->uuid,
	pcmk_is_set(remote_rsc->flags, pe_rsc_failed)? "failed " : "",
	remote_rsc->id, state2text(state));

	if (pcmk__strcase_any_of(action->task, PCMK_ACTION_MIGRATE_TO,
	PCMK_ACTION_MIGRATE_FROM, NULL)) {
	/* Migration ops map to pcmk_action_unspecified, but we need to apply
	* the same ordering as for stop or demote (see get_router_node()).
	*/
	task = pcmk_action_stop;
	}

	switch (task) {
	case start_rsc:
	case action_promote:
	order_opts = pe_order_none;

	if (state == remote_state_failed) {
	/* Force recovery, by making this action required */
	pe__set_order_flags(order_opts, pe_order_implies_then);
	}

	/* Ensure connection is up before running this action */
	order_start_then_action(remote_rsc, action, order_opts);
	break;

	case pcmk_action_stop:
	if (state == remote_state_alive) {
	order_action_then_stop(action, remote_rsc,
	pe_order_implies_first);

	} else if (state == remote_state_failed) {
	/* The resource is active on the node, but since we don't have a
	* valid connection, the only way to stop the resource is by
	* fencing the node. There is no need to order the stop relative
	* to the remote connection, since the stop will become implied
	* by the fencing.
	*/
	pe_fence_node(remote_rsc->cluster, action->node,
	"resources are active but "
	"connection is unrecoverable",
	FALSE);

	} else if (remote_rsc->next_role == pcmk_role_stopped) {
	/* State must be remote_state_unknown or remote_state_stopped.
	* Since the connection is not coming back up in this
	* transition, stop this resource first.
	*/
	order_action_then_stop(action, remote_rsc,
	pe_order_implies_first);

	} else {
	/* The connection is going to be started somewhere else, so
	* stop this resource after that completes.
	*/
	order_start_then_action(remote_rsc, action, pe_order_none);
	}
	break;

	case action_demote:
	/* Only order this demote relative to the connection start if the
	* connection isn't being torn down. Otherwise, the demote would be
	* blocked because the connection start would not be allowed.
	*/
	if ((state == remote_state_resting)
	\|\| (state == remote_state_unknown)) {

	order_start_then_action(remote_rsc, action, pe_order_none);
	} /* Otherwise we can rely on the stop ordering */
	break;

	default:
	/* Wait for the connection resource to be up */
	if (pcmk__action_is_recurring(action)) {
	/* In case we ever get the recovery logic wrong, force
	* recurring monitors to be restarted, even if just
	* the connection was re-established
	*/
	order_start_then_action(remote_rsc, action,
	pe_order_implies_then);

	} else {
	pe_node_t *cluster_node = pe__current_node(remote_rsc);

	if ((task == pcmk_action_monitor) && (state == remote_state_failed)) {
	/* We would only be here if we do not know the state of the
	* resource on the remote node. Since we have no way to find
	* out, it is necessary to fence the node.
	*/
	pe_fence_node(remote_rsc->cluster, action->node,
	"resources are in unknown state "
	"and connection is unrecoverable", FALSE);
	}

	if ((cluster_node != NULL) && (state == remote_state_stopped)) {
	/* The connection is currently up, but is going down
	* permanently. Make sure we check services are actually
	* stopped _before_ we let the connection get closed.
	*/
	order_action_then_stop(action, remote_rsc,
	pe_order_runnable_left);

	} else {
	order_start_then_action(remote_rsc, action, pe_order_none);
	}
	}
	break;
	}
	}

	static void
	apply_container_ordering(pe_action_t *action)
	{
	/* VMs are also classified as containers for these purposes... in
	* that they both involve a 'thing' running on a real or remote
	* cluster node.
	*
	* This allows us to be smarter about the type and extent of
	* recovery actions required in various scenarios
	*/
	pe_resource_t *remote_rsc = NULL;
	pe_resource_t *container = NULL;
	enum action_tasks task = text2task(action->task);

	CRM_ASSERT(action->rsc != NULL);
	CRM_ASSERT(action->node != NULL);
	CRM_ASSERT(pe__is_guest_or_remote_node(action->node));

	remote_rsc = action->node->details->remote_rsc;
	CRM_ASSERT(remote_rsc != NULL);

	container = remote_rsc->container;
	CRM_ASSERT(container != NULL);

	if (pcmk_is_set(container->flags, pe_rsc_failed)) {
	pe_fence_node(action->rsc->cluster, action->node, "container failed",
	FALSE);
	}

	crm_trace("Order %s action %s relative to %s%s for %s%s",
	action->task, action->uuid,
	pcmk_is_set(remote_rsc->flags, pe_rsc_failed)? "failed " : "",
	remote_rsc->id,
	pcmk_is_set(container->flags, pe_rsc_failed)? "failed " : "",
	container->id);

	if (pcmk__strcase_any_of(action->task, PCMK_ACTION_MIGRATE_TO,
	PCMK_ACTION_MIGRATE_FROM, NULL)) {
	/* Migration ops map to pcmk_action_unspecified, but we need to apply
	* the same ordering as for stop or demote (see get_router_node()).
	*/
	task = pcmk_action_stop;
	}

	switch (task) {
	case start_rsc:
	case action_promote:
	// Force resource recovery if the container is recovered
	order_start_then_action(container, action, pe_order_implies_then);

	// Wait for the connection resource to be up, too
	order_start_then_action(remote_rsc, action, pe_order_none);
	break;

	case pcmk_action_stop:
	case action_demote:
	if (pcmk_is_set(container->flags, pe_rsc_failed)) {
	/* When the container representing a guest node fails, any stop
	* or demote actions for resources running on the guest node
	* are implied by the container stopping. This is similar to
	* how fencing operations work for cluster nodes and remote
	* nodes.
	*/
	} else {
	/* Ensure the operation happens before the connection is brought
	* down.
	*
	* If we really wanted to, we could order these after the
	* connection start, IFF the container's current role was
	* stopped (otherwise we re-introduce an ordering loop when the
	* connection is restarting).
	*/
	order_action_then_stop(action, remote_rsc, pe_order_none);
	}
	break;

	default:
	/* Wait for the connection resource to be up */
	if (pcmk__action_is_recurring(action)) {
	/* In case we ever get the recovery logic wrong, force
	* recurring monitors to be restarted, even if just
	* the connection was re-established
	*/
	if (task != pcmk_action_unspecified) {
	order_start_then_action(remote_rsc, action,
	pe_order_implies_then);
	}
	} else {
	order_start_then_action(remote_rsc, action, pe_order_none);
	}
	break;
	}
	}

	/*!
	* \internal
	* \brief Order all relevant actions relative to remote connection actions
	*
	* \param[in,out] data_set Cluster working set
	*/
	void
	pcmk__order_remote_connection_actions(pe_working_set_t *data_set)
	{
	if (!pcmk_is_set(data_set->flags, pe_flag_have_remote_nodes)) {
	return;
	}

	crm_trace("Creating remote connection orderings");

	for (GList *iter = data_set->actions; iter != NULL; iter = iter->next) {
	pe_action_t *action = iter->data;
	pe_resource_t *remote = NULL;

	// We are only interested in resource actions
	if (action->rsc == NULL) {
	continue;
	}

	/* Special case: If we are clearing the failcount of an actual
	* remote connection resource, then make sure this happens before
	* any start of the resource in this transition.
	*/
	if (action->rsc->is_remote_node &&
	pcmk__str_eq(action->task, PCMK_ACTION_CLEAR_FAILCOUNT,
	pcmk__str_none)) {

	pcmk__new_ordering(action->rsc, NULL, action, action->rsc,
	pcmk__op_key(action->rsc->id, PCMK_ACTION_START,
	0),
	NULL, pe_order_optional, data_set);

	continue;
	}

	// We are only interested in actions assigned to a node
	if (action->node == NULL) {
	continue;
	}

	if (!pe__is_guest_or_remote_node(action->node)) {
	continue;
	}

	/* We are only interested in real actions.
	*
	* @TODO This is probably wrong; pseudo-actions might be converted to
	* real actions and vice versa later in update_actions() at the end of
	* pcmk__apply_orderings().
	*/
	if (pcmk_is_set(action->flags, pe_action_pseudo)) {
	continue;
	}

	remote = action->node->details->remote_rsc;
	if (remote == NULL) {
	// Orphaned
	continue;
	}

	/* Another special case: if a resource is moving to a Pacemaker Remote
	* node, order the stop on the original node after any start of the
	* remote connection. This ensures that if the connection fails to
	* start, we leave the resource running on the original node.
	*/
	if (pcmk__str_eq(action->task, PCMK_ACTION_START, pcmk__str_none)) {
	for (GList *item = action->rsc->actions; item != NULL;
	item = item->next) {
	pe_action_t *rsc_action = item->data;

	if (!pe__same_node(rsc_action->node, action->node)
	&& pcmk__str_eq(rsc_action->task, PCMK_ACTION_STOP,
	pcmk__str_none)) {
	pcmk__new_ordering(remote, start_key(remote), NULL,
	action->rsc, NULL, rsc_action,
	pe_order_optional, data_set);
	}
	}
	}

	/* The action occurs across a remote connection, so create
	* ordering constraints that guarantee the action occurs while the node
	* is active (after start, before stop ... things like that).
	*
	* This is somewhat brittle in that we need to make sure the results of
	* this ordering are compatible with the result of get_router_node().
	* It would probably be better to add XML_LRM_ATTR_ROUTER_NODE as part
	* of this logic rather than create_graph_action().
	*/
	if (remote->container) {
	crm_trace("Container ordering for %s", action->uuid);
	apply_container_ordering(action);

	} else {
	crm_trace("Remote ordering for %s", action->uuid);
	apply_remote_ordering(action);
	}
	}
	}

	/*!
	* \internal
	* \brief Check whether a node is a failed remote node
	*
	* \param[in] node Node to check
	*
	* \return true if \p node is a failed remote node, false otherwise
	*/
	bool
	pcmk__is_failed_remote_node(const pe_node_t *node)
	{
	return pe__is_remote_node(node) && (node->details->remote_rsc != NULL)
	&& (get_remote_node_state(node) == remote_state_failed);
	}

	/*!
	* \internal
	* \brief Check whether a given resource corresponds to a given node as guest
	*
	* \param[in] rsc Resource to check
	* \param[in] node Node to check
	*
	* \return true if \p node is a guest node and \p rsc is its containing
	* resource, otherwise false
	*/
	bool
	pcmk__rsc_corresponds_to_guest(const pe_resource_t rsc, const pe_node_t node)
	{
	return (rsc != NULL) && (rsc->fillers != NULL) && (node != NULL)
	&& (node->details->remote_rsc != NULL)
	&& (node->details->remote_rsc->container == rsc);
	}

	/*!
	* \internal
	* \brief Get proper connection host that a remote action must be routed through
	*
	* A remote connection resource might be starting, stopping, or migrating in the
	* same transition that an action needs to be executed on its Pacemaker Remote
	* node. Determine the proper node that the remote action should be routed
	* through.
	*
	* \param[in] action (Potentially remote) action to route
	*
	* \return Connection host that action should be routed through if remote,
	* otherwise NULL
	*/
	pe_node_t *
	pcmk__connection_host_for_action(const pe_action_t *action)
	{
	pe_node_t *began_on = NULL;
	pe_node_t *ended_on = NULL;
	bool partial_migration = false;
	const char *task = action->task;

	if (pcmk__str_eq(task, PCMK_ACTION_STONITH, pcmk__str_none)
	\|\| !pe__is_guest_or_remote_node(action->node)) {
	return NULL;
	}

	CRM_ASSERT(action->node->details->remote_rsc != NULL);

	began_on = pe__current_node(action->node->details->remote_rsc);
	ended_on = action->node->details->remote_rsc->allocated_to;
	if (action->node->details->remote_rsc
	&& (action->node->details->remote_rsc->container == NULL)
	&& action->node->details->remote_rsc->partial_migration_target) {
	partial_migration = true;
	}

	if (began_on == NULL) {
	crm_trace("Routing %s for %s through remote connection's "
	"next node %s (starting)%s",
	action->task, (action->rsc? action->rsc->id : "no resource"),
	(ended_on? ended_on->details->uname : "none"),
	partial_migration? " (partial migration)" : "");
	return ended_on;
	}

	if (ended_on == NULL) {
	crm_trace("Routing %s for %s through remote connection's "
	"current node %s (stopping)%s",
	action->task, (action->rsc? action->rsc->id : "no resource"),
	(began_on? began_on->details->uname : "none"),
	partial_migration? " (partial migration)" : "");
	return began_on;
	}

	if (pe__same_node(began_on, ended_on)) {
	crm_trace("Routing %s for %s through remote connection's "
	"current node %s (not moving)%s",
	action->task, (action->rsc? action->rsc->id : "no resource"),
	(began_on? began_on->details->uname : "none"),
	partial_migration? " (partial migration)" : "");
	return began_on;
	}

	/* If we get here, the remote connection is moving during this transition.
	* This means some actions for resources behind the connection will get
	* routed through the cluster node the connection resource is currently on,
	* and others are routed through the cluster node the connection will end up
	* on.
	*/

	if (pcmk__str_eq(task, PCMK_ACTION_NOTIFY, pcmk__str_none)) {
	task = g_hash_table_lookup(action->meta, "notify_operation");
	}

	/*
	* Stop, demote, and migration actions must occur before the connection can
	* move (these actions are required before the remote resource can stop). In
	* this case, we know these actions have to be routed through the initial
	* cluster node the connection resource lived on before the move takes
	* place.
	*
	* The exception is a partial migration of a (non-guest) remote connection
	* resource; in that case, all actions (even these) will be ordered after
	* the connection's pseudo-start on the migration target, so the target is
	* the router node.
	*/
	if (pcmk__strcase_any_of(task, PCMK_ACTION_CANCEL, PCMK_ACTION_STOP,
	PCMK_ACTION_DEMOTE, PCMK_ACTION_MIGRATE_FROM,
	PCMK_ACTION_MIGRATE_TO, NULL)
	&& !partial_migration) {
	crm_trace("Routing %s for %s through remote connection's "
	"current node %s (moving)%s",
	action->task, (action->rsc? action->rsc->id : "no resource"),
	(began_on? began_on->details->uname : "none"),
	partial_migration? " (partial migration)" : "");
	return began_on;
	}

	/* Everything else (start, promote, monitor, probe, refresh,
	* clear failcount, delete, ...) must occur after the connection starts on
	* the node it is moving to.
	*/
	crm_trace("Routing %s for %s through remote connection's "
	"next node %s (moving)%s",
	action->task, (action->rsc? action->rsc->id : "no resource"),
	(ended_on? ended_on->details->uname : "none"),
	partial_migration? " (partial migration)" : "");
	return ended_on;
	}

	/*!
	* \internal
	* \brief Replace remote connection's addr="#uname" with actual address
	*
	* REMOTE_CONTAINER_HACK: If a given resource is a remote connection resource
	* with its "addr" parameter set to "#uname", pull the actual value from the
	* parameters evaluated without a node (which was put there earlier in
	* pcmk__create_graph() when the bundle's expand() method was called).
	*
	* \param[in,out] rsc Resource to check
	* \param[in,out] params Resource parameters evaluated per node
	*/
	void
	pcmk__substitute_remote_addr(pe_resource_t rsc, GHashTable params)
	{
	const char *remote_addr = g_hash_table_lookup(params,
	XML_RSC_ATTR_REMOTE_RA_ADDR);

	if (pcmk__str_eq(remote_addr, "#uname", pcmk__str_none)) {
	GHashTable *base = pe_rsc_params(rsc, NULL, rsc->cluster);

	remote_addr = g_hash_table_lookup(base, XML_RSC_ATTR_REMOTE_RA_ADDR);
	if (remote_addr != NULL) {
	g_hash_table_insert(params, strdup(XML_RSC_ATTR_REMOTE_RA_ADDR),
	strdup(remote_addr));
	}
	}
	}

	/*!
	* \brief Add special bundle meta-attributes to XML
	*
	* If a given action will be executed on a guest node (including a bundle),
	* add the special bundle meta-attribute "container-attribute-target" and
	* environment variable "physical_host" as XML attributes (using meta-attribute
	* naming).
	*
	* \param[in,out] args_xml XML to add attributes to
	* \param[in] action Action to check
	*/
	void
	pcmk__add_bundle_meta_to_xml(xmlNode args_xml, const pe_action_t action)
	{
	const pe_node_t *guest = action->node;
	const pe_node_t *host = NULL;
	enum action_tasks task;

	if (!pe__is_guest_node(guest)) {
	return;
	}

	task = text2task(action->task);
	if ((task == action_notify) \|\| (task == action_notified)) {
	task = text2task(g_hash_table_lookup(action->meta, "notify_operation"));
	}

	switch (task) {
	case pcmk_action_stop:
	- case stopped_rsc:
	+ case pcmk_action_stopped:
	case action_demote:
	case action_demoted:
	// "Down" actions take place on guest's current host
	host = pe__current_node(guest->details->remote_rsc->container);
	break;

	case start_rsc:
	case started_rsc:
	case pcmk_action_monitor:
	case action_promote:
	case action_promoted:
	// "Up" actions take place on guest's next host
	host = guest->details->remote_rsc->container->allocated_to;
	break;

	default:
	break;
	}

	if (host != NULL) {
	hash2metafield((gpointer) XML_RSC_ATTR_TARGET,
	(gpointer) g_hash_table_lookup(action->rsc->meta,
	XML_RSC_ATTR_TARGET),
	(gpointer) args_xml);
	hash2metafield((gpointer) PCMK__ENV_PHYSICAL_HOST,
	(gpointer) host->details->uname,
	(gpointer) args_xml);
	}
	}
	diff --git a/lib/pengine/common.c b/lib/pengine/common.c
	index 51d50cf4de..0e899fdc5c 100644
	--- a/lib/pengine/common.c
	+++ b/lib/pengine/common.c
	@@ -1,616 +1,617 @@
	/*
	* 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 Lesser General Public License
	* version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
	*/

	#include <crm_internal.h>
	#include <crm/crm.h>
	#include <crm/msg_xml.h>
	#include <crm/common/xml.h>
	#include <crm/common/util.h>

	#include <glib.h>

	#include <crm/common/scheduler_internal.h>
	#include <crm/pengine/internal.h>

	gboolean was_processing_error = FALSE;
	gboolean was_processing_warning = FALSE;

	static bool
	check_placement_strategy(const char *value)
	{
	return pcmk__strcase_any_of(value, "default", "utilization", "minimal",
	"balanced", NULL);
	}

	static pcmk__cluster_option_t pe_opts[] = {
	/* name, old name, type, allowed values,
	* default value, validator,
	* short description,
	* long description
	*/
	{
	"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
	},
	{
	"symmetric-cluster", NULL, "boolean", NULL,
	"true", pcmk__valid_boolean,
	N_("Whether resources can run on any node by default"),
	NULL
	},
	{
	"maintenance-mode", NULL, "boolean", NULL,
	"false", pcmk__valid_boolean,
	N_("Whether the cluster should refrain from monitoring, starting, "
	"and stopping resources"),
	NULL
	},
	{
	"start-failure-is-fatal", NULL, "boolean", NULL,
	"true", pcmk__valid_boolean,
	N_("Whether a start failure should prevent a resource from being "
	"recovered on the same node"),
	N_("When true, the cluster will immediately ban a resource from a node "
	"if it fails to start there. When false, the cluster will instead "
	"check the resource's fail count against its migration-threshold.")
	},
	{
	"enable-startup-probes", NULL, "boolean", NULL,
	"true", pcmk__valid_boolean,
	N_("Whether the cluster should check for active resources during start-up"),
	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.")
	},

	// Fencing-related options
	{
	"stonith-enabled", NULL, "boolean", NULL,
	"true", pcmk__valid_boolean,
	N_("* Advanced Use Only * "
	"Whether nodes may be fenced as part of recovery"),
	N_("If false, unresponsive nodes are immediately assumed to be harmless, "
	"and resources that were active on them may be recovered "
	"elsewhere. This can result in a \"split-brain\" situation, "
	"potentially leading to data loss and/or service unavailability.")
	},
	{
	"stonith-action", NULL, "select", "reboot, off, poweroff",
	PCMK_ACTION_REBOOT, pcmk__is_fencing_action,
	N_("Action to send to fence device when a node needs to be fenced "
	"(\"poweroff\" is a deprecated alias for \"off\")"),
	NULL
	},
	{
	"stonith-timeout", NULL, "time", NULL,
	"60s", pcmk__valid_interval_spec,
	N_("* Advanced Use Only * Unused by Pacemaker"),
	N_("This value is not used by Pacemaker, but is kept for backward "
	"compatibility, and certain legacy fence agents might use it.")
	},
	{
	XML_ATTR_HAVE_WATCHDOG, NULL, "boolean", NULL,
	"false", pcmk__valid_boolean,
	N_("Whether watchdog integration is enabled"),
	N_("This is set automatically by the cluster according to whether SBD "
	"is detected to be in use. User-configured values are ignored. "
	"The value `true` is meaningful if diskless SBD is used and "
	"`stonith-watchdog-timeout` is nonzero. In that case, if fencing "
	"is required, watchdog-based self-fencing will be performed via "
	"SBD without requiring a fencing resource explicitly configured.")
	},
	{
	"concurrent-fencing", NULL, "boolean", NULL,
	PCMK__CONCURRENT_FENCING_DEFAULT, pcmk__valid_boolean,
	N_("Allow performing fencing operations in parallel"),
	NULL
	},
	{
	"startup-fencing", NULL, "boolean", NULL,
	"true", pcmk__valid_boolean,
	N_("* Advanced Use Only * Whether to fence unseen nodes at start-up"),
	N_("Setting this to false may lead to a \"split-brain\" situation,"
	"potentially leading to data loss and/or service unavailability.")
	},
	{
	XML_CONFIG_ATTR_PRIORITY_FENCING_DELAY, NULL, "time", NULL,
	"0", pcmk__valid_interval_spec,
	N_("Apply fencing delay targeting the lost nodes with the highest total resource priority"),
	N_("Apply specified delay for the fencings that are targeting the lost "
	"nodes with the highest total resource priority in case we don't "
	"have the majority of the nodes in our cluster partition, so that "
	"the more significant nodes potentially win any fencing match, "
	"which is especially meaningful under split-brain of 2-node "
	"cluster. A promoted resource instance takes the base priority + 1 "
	"on calculation if the base priority is not 0. Any static/random "
	"delays that are introduced by `pcmk_delay_base/max` configured "
	"for the corresponding fencing resources will be added to this "
	"delay. This delay should be significantly greater than, safely "
	"twice, the maximum `pcmk_delay_base/max`. By default, priority "
	"fencing delay is disabled.")
	},

	{
	XML_CONFIG_ATTR_NODE_PENDING_TIMEOUT, NULL, "time", NULL,
	"10min", pcmk__valid_interval_spec,
	N_("How long to wait for a node that has joined the cluster to join "
	"the process group"),
	N_("A node that has joined the cluster can be pending on joining the "
	"process group. We wait up to this much time for it. If it times "
	"out, fencing targeting the node will be issued if enabled.")
	},
	{
	"cluster-delay", NULL, "time", NULL,
	"60s", pcmk__valid_interval_spec,
	N_("Maximum time for node-to-node communication"),
	N_("The node elected Designated Controller (DC) will consider an action "
	"failed if it does not get a response from the node executing the "
	"action within this time (after considering the action's own "
	"timeout). The \"correct\" value will depend on the speed and "
	"load of your network and cluster nodes.")
	},
	{
	"batch-limit", NULL, "integer", NULL,
	"0", pcmk__valid_number,
	N_("Maximum number of jobs that the cluster may execute in parallel "
	"across all nodes"),
	N_("The \"correct\" value will depend on the speed and load of your "
	"network and cluster nodes. If set to 0, the cluster will "
	"impose a dynamically calculated limit when any node has a "
	"high load.")
	},
	{
	"migration-limit", NULL, "integer", NULL,
	"-1", pcmk__valid_number,
	N_("The number of live migration actions that the cluster is allowed "
	"to execute in parallel on a node (-1 means no limit)")
	},

	/* Orphans and stopping */
	{
	"stop-all-resources", NULL, "boolean", NULL,
	"false", pcmk__valid_boolean,
	N_("Whether the cluster should stop all active resources"),
	NULL
	},
	{
	"stop-orphan-resources", NULL, "boolean", NULL,
	"true", pcmk__valid_boolean,
	N_("Whether to stop resources that were removed from the configuration"),
	NULL
	},
	{
	"stop-orphan-actions", NULL, "boolean", NULL,
	"true", pcmk__valid_boolean,
	N_("Whether to cancel recurring actions removed from the configuration"),
	NULL
	},
	{
	"remove-after-stop", NULL, "boolean", NULL,
	"false", pcmk__valid_boolean,
	N_("* Deprecated * Whether to remove stopped resources from "
	"the executor"),
	N_("Values other than default are poorly tested and potentially dangerous."
	" This option will be removed in a future release.")
	},

	/* Storing inputs */
	{
	"pe-error-series-max", NULL, "integer", NULL,
	"-1", pcmk__valid_number,
	N_("The number of scheduler inputs resulting in errors to save"),
	N_("Zero to disable, -1 to store unlimited.")
	},
	{
	"pe-warn-series-max", NULL, "integer", NULL,
	"5000", pcmk__valid_number,
	N_("The number of scheduler inputs resulting in warnings to save"),
	N_("Zero to disable, -1 to store unlimited.")
	},
	{
	"pe-input-series-max", NULL, "integer", NULL,
	"4000", pcmk__valid_number,
	N_("The number of scheduler inputs without errors or warnings to save"),
	N_("Zero to disable, -1 to store unlimited.")
	},

	/* Node health */
	{
	PCMK__OPT_NODE_HEALTH_STRATEGY, NULL, "select",
	PCMK__VALUE_NONE ", " PCMK__VALUE_MIGRATE_ON_RED ", "
	PCMK__VALUE_ONLY_GREEN ", " PCMK__VALUE_PROGRESSIVE ", "
	PCMK__VALUE_CUSTOM,
	PCMK__VALUE_NONE, pcmk__validate_health_strategy,
	N_("How cluster should react to node health attributes"),
	N_("Requires external entities to create node attributes (named with "
	"the prefix \"#health\") with values \"red\", "
	"\"yellow\", or \"green\".")
	},
	{
	PCMK__OPT_NODE_HEALTH_BASE, NULL, "integer", NULL,
	"0", pcmk__valid_number,
	N_("Base health score assigned to a node"),
	N_("Only used when \"node-health-strategy\" is set to \"progressive\".")
	},
	{
	PCMK__OPT_NODE_HEALTH_GREEN, NULL, "integer", NULL,
	"0", pcmk__valid_number,
	N_("The score to use for a node health attribute whose value is \"green\""),
	N_("Only used when \"node-health-strategy\" is set to \"custom\" or \"progressive\".")
	},
	{
	PCMK__OPT_NODE_HEALTH_YELLOW, NULL, "integer", NULL,
	"0", pcmk__valid_number,
	N_("The score to use for a node health attribute whose value is \"yellow\""),
	N_("Only used when \"node-health-strategy\" is set to \"custom\" or \"progressive\".")
	},
	{
	PCMK__OPT_NODE_HEALTH_RED, NULL, "integer", NULL,
	"-INFINITY", pcmk__valid_number,
	N_("The score to use for a node health attribute whose value is \"red\""),
	N_("Only used when \"node-health-strategy\" is set to \"custom\" or \"progressive\".")
	},

	/Placement Strategy/
	{
	"placement-strategy", NULL, "select",
	"default, utilization, minimal, balanced",
	"default", check_placement_strategy,
	N_("How the cluster should allocate resources to nodes"),
	NULL
	},
	};

	void
	pe_metadata(pcmk__output_t *out)
	{
	const char *desc_short = "Pacemaker scheduler options";
	const char *desc_long = "Cluster options used by Pacemaker's scheduler";

	gchar *s = pcmk__format_option_metadata("pacemaker-schedulerd", desc_short,
	desc_long, pe_opts,
	PCMK__NELEM(pe_opts));
	out->output_xml(out, "metadata", s);
	g_free(s);
	}

	void
	verify_pe_options(GHashTable * options)
	{
	pcmk__validate_cluster_options(options, pe_opts, PCMK__NELEM(pe_opts));
	}

	const char *
	pe_pref(GHashTable * options, const char *name)
	{
	return pcmk__cluster_option(options, pe_opts, PCMK__NELEM(pe_opts), name);
	}

	const char *
	fail2text(enum action_fail_response fail)
	{
	const char *result = "<unknown>";

	switch (fail) {
	case action_fail_ignore:
	result = "ignore";
	break;
	case action_fail_demote:
	result = "demote";
	break;
	case action_fail_block:
	result = "block";
	break;
	case action_fail_recover:
	result = "recover";
	break;
	case action_fail_migrate:
	result = "migrate";
	break;
	case action_fail_stop:
	result = "stop";
	break;
	case action_fail_fence:
	result = "fence";
	break;
	case action_fail_standby:
	result = "standby";
	break;
	case action_fail_restart_container:
	result = "restart-container";
	break;
	case action_fail_reset_remote:
	result = "reset-remote";
	break;
	}
	return result;
	}

	enum action_tasks
	text2task(const char *task)
	{
	if (pcmk__str_eq(task, PCMK_ACTION_STOP, pcmk__str_casei)) {
	return pcmk_action_stop;

	} else if (pcmk__str_eq(task, PCMK_ACTION_STOPPED, pcmk__str_casei)) {
	- return stopped_rsc;
	+ return pcmk_action_stopped;
	+
	} else if (pcmk__str_eq(task, PCMK_ACTION_START, pcmk__str_casei)) {
	return start_rsc;
	} else if (pcmk__str_eq(task, PCMK_ACTION_RUNNING, pcmk__str_casei)) {
	return started_rsc;
	} else if (pcmk__str_eq(task, PCMK_ACTION_DO_SHUTDOWN, pcmk__str_casei)) {
	return shutdown_crm;
	} else if (pcmk__str_eq(task, PCMK_ACTION_STONITH, pcmk__str_casei)) {
	return stonith_node;

	} else if (pcmk__str_eq(task, PCMK_ACTION_MONITOR, pcmk__str_casei)) {
	return pcmk_action_monitor;

	} else if (pcmk__str_eq(task, PCMK_ACTION_NOTIFY, pcmk__str_casei)) {
	return action_notify;
	} else if (pcmk__str_eq(task, PCMK_ACTION_NOTIFIED, pcmk__str_casei)) {
	return action_notified;
	} else if (pcmk__str_eq(task, PCMK_ACTION_PROMOTE, pcmk__str_casei)) {
	return action_promote;
	} else if (pcmk__str_eq(task, PCMK_ACTION_DEMOTE, pcmk__str_casei)) {
	return action_demote;
	} else if (pcmk__str_eq(task, PCMK_ACTION_PROMOTED, pcmk__str_casei)) {
	return action_promoted;
	} else if (pcmk__str_eq(task, PCMK_ACTION_DEMOTED, pcmk__str_casei)) {
	return action_demoted;
	}
	return pcmk_action_unspecified;
	}

	const char *
	task2text(enum action_tasks task)
	{
	const char *result = "<unknown>";

	switch (task) {
	case pcmk_action_unspecified:
	result = "no_action";
	break;
	case pcmk_action_stop:
	result = PCMK_ACTION_STOP;
	break;
	- case stopped_rsc:
	+ case pcmk_action_stopped:
	result = PCMK_ACTION_STOPPED;
	break;
	case start_rsc:
	result = PCMK_ACTION_START;
	break;
	case started_rsc:
	result = PCMK_ACTION_RUNNING;
	break;
	case shutdown_crm:
	result = PCMK_ACTION_DO_SHUTDOWN;
	break;
	case stonith_node:
	result = PCMK_ACTION_STONITH;
	break;
	case pcmk_action_monitor:
	result = PCMK_ACTION_MONITOR;
	break;
	case action_notify:
	result = PCMK_ACTION_NOTIFY;
	break;
	case action_notified:
	result = PCMK_ACTION_NOTIFIED;
	break;
	case action_promote:
	result = PCMK_ACTION_PROMOTE;
	break;
	case action_promoted:
	result = PCMK_ACTION_PROMOTED;
	break;
	case action_demote:
	result = PCMK_ACTION_DEMOTE;
	break;
	case action_demoted:
	result = PCMK_ACTION_DEMOTED;
	break;
	}

	return result;
	}

	const char *
	role2text(enum rsc_role_e role)
	{
	switch (role) {
	case pcmk_role_stopped:
	return PCMK__ROLE_STOPPED;

	case pcmk_role_started:
	return PCMK__ROLE_STARTED;

	case pcmk_role_unpromoted:
	#ifdef PCMK__COMPAT_2_0
	return PCMK__ROLE_UNPROMOTED_LEGACY;
	#else
	return PCMK__ROLE_UNPROMOTED;
	#endif

	case pcmk_role_promoted:
	#ifdef PCMK__COMPAT_2_0
	return PCMK__ROLE_PROMOTED_LEGACY;
	#else
	return PCMK__ROLE_PROMOTED;
	#endif

	default: // pcmk_role_unknown
	return PCMK__ROLE_UNKNOWN;
	}
	}

	enum rsc_role_e
	text2role(const char *role)
	{
	CRM_ASSERT(role != NULL);
	if (pcmk__str_eq(role, PCMK__ROLE_STOPPED, pcmk__str_casei)) {
	return pcmk_role_stopped;
	} else if (pcmk__str_eq(role, PCMK__ROLE_STARTED, pcmk__str_casei)) {
	return pcmk_role_started;
	} else if (pcmk__strcase_any_of(role, PCMK__ROLE_UNPROMOTED,
	PCMK__ROLE_UNPROMOTED_LEGACY, NULL)) {
	return pcmk_role_unpromoted;
	} else if (pcmk__strcase_any_of(role, PCMK__ROLE_PROMOTED,
	PCMK__ROLE_PROMOTED_LEGACY, NULL)) {
	return pcmk_role_promoted;
	} else if (pcmk__str_eq(role, PCMK__ROLE_UNKNOWN, pcmk__str_casei)) {
	return pcmk_role_unknown;
	}
	crm_err("Unknown role: %s", role);
	return pcmk_role_unknown;
	}

	void
	add_hash_param(GHashTable * hash, const char name, const char value)
	{
	CRM_CHECK(hash != NULL, return);

	crm_trace("Adding name='%s' value='%s' to hash table",
	pcmk__s(name, "<null>"), pcmk__s(value, "<null>"));
	if (name == NULL \|\| value == NULL) {
	return;

	} else if (pcmk__str_eq(value, "#default", pcmk__str_casei)) {
	return;

	} else if (g_hash_table_lookup(hash, name) == NULL) {
	g_hash_table_insert(hash, strdup(name), strdup(value));
	}
	}

	/*!
	* \internal
	* \brief Look up an attribute value on the appropriate node
	*
	* If \p node is a guest node and either the \c XML_RSC_ATTR_TARGET meta
	* attribute is set to "host" for \p rsc or \p force_host is \c true, query the
	* attribute on the node's host. Otherwise, query the attribute on \p node
	* itself.
	*
	* \param[in] node Node to query attribute value on by default
	* \param[in] name Name of attribute to query
	* \param[in] rsc Resource on whose behalf we're querying
	* \param[in] node_type Type of resource location lookup
	* \param[in] force_host Force a lookup on the guest node's host, regardless of
	* the \c XML_RSC_ATTR_TARGET value
	*
	* \return Value of the attribute on \p node or on the host of \p node
	*
	* \note If \p force_host is \c true, \p node \e must be a guest node.
	*/
	const char *
	pe__node_attribute_calculated(const pe_node_t node, const char name,
	const pe_resource_t *rsc,
	enum pe__rsc_node node_type,
	bool force_host)
	{
	// @TODO: Use pe__is_guest_node() after merging libpe_{rules,status}
	bool is_guest = (node != NULL) && (node->details->type == node_remote)
	&& (node->details->remote_rsc != NULL)
	&& (node->details->remote_rsc->container != NULL);
	const char *source = NULL;
	const char *node_type_s = NULL;
	const char *reason = NULL;

	const pe_resource_t *container = NULL;
	const pe_node_t *host = NULL;

	CRM_ASSERT((node != NULL) && (name != NULL) && (rsc != NULL)
	&& (!force_host \|\| is_guest));

	/* Ignore XML_RSC_ATTR_TARGET if node is not a guest node. This represents a
	* user configuration error.
	*/
	source = g_hash_table_lookup(rsc->meta, XML_RSC_ATTR_TARGET);
	if (!force_host
	&& (!is_guest \|\| !pcmk__str_eq(source, "host", pcmk__str_casei))) {

	return g_hash_table_lookup(node->details->attrs, name);
	}

	container = node->details->remote_rsc->container;

	switch (node_type) {
	case pe__rsc_node_assigned:
	node_type_s = "assigned";
	host = container->allocated_to;
	if (host == NULL) {
	reason = "not assigned";
	}
	break;

	case pe__rsc_node_current:
	node_type_s = "current";

	if (container->running_on != NULL) {
	host = container->running_on->data;
	}
	if (host == NULL) {
	reason = "inactive";
	}
	break;

	default:
	// Add support for other enum pe__rsc_node values if needed
	CRM_ASSERT(false);
	break;
	}

	if (host != NULL) {
	const char *value = g_hash_table_lookup(host->details->attrs, name);

	pe_rsc_trace(rsc,
	"%s: Value lookup for %s on %s container host %s %s%s",
	rsc->id, name, node_type_s, pe__node_name(host),
	((value != NULL)? "succeeded: " : "failed"),
	pcmk__s(value, ""));
	return value;
	}
	pe_rsc_trace(rsc,
	"%s: Not looking for %s on %s container host: %s is %s",
	rsc->id, name, node_type_s, container->id, reason);
	return NULL;
	}

	const char *
	pe_node_attribute_raw(const pe_node_t node, const char name)
	{
	if(node == NULL) {
	return NULL;
	}
	return g_hash_table_lookup(node->details->attrs, name);
	}
	diff --git a/lib/pengine/pe_actions.c b/lib/pengine/pe_actions.c
	index e460fde70a..889df3a7df 100644
	--- a/lib/pengine/pe_actions.c
	+++ b/lib/pengine/pe_actions.c
	@@ -1,1699 +1,1699 @@
	/*
	* 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 Lesser General Public License
	* version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
	*/

	#include <crm_internal.h>

	#include <glib.h>
	#include <stdbool.h>

	#include <crm/crm.h>
	#include <crm/msg_xml.h>
	#include <crm/common/scheduler_internal.h>
	#include <crm/pengine/internal.h>
	#include <crm/common/xml_internal.h>
	#include "pe_status_private.h"

	static void unpack_operation(pe_action_t action, const xmlNode xml_obj,
	const pe_resource_t *container,
	pe_working_set_t *data_set, guint interval_ms);

	static void
	add_singleton(pe_working_set_t data_set, pe_action_t action)
	{
	if (data_set->singletons == NULL) {
	data_set->singletons = pcmk__strkey_table(NULL, NULL);
	}
	g_hash_table_insert(data_set->singletons, action->uuid, action);
	}

	static pe_action_t *
	lookup_singleton(pe_working_set_t data_set, const char action_uuid)
	{
	if (data_set->singletons == NULL) {
	return NULL;
	}
	return g_hash_table_lookup(data_set->singletons, action_uuid);
	}

	/*!
	* \internal
	* \brief Find an existing action that matches arguments
	*
	* \param[in] key Action key to match
	* \param[in] rsc Resource to match (if any)
	* \param[in] node Node to match (if any)
	* \param[in] data_set Cluster working set
	*
	* \return Existing action that matches arguments (or NULL if none)
	*/
	static pe_action_t *
	find_existing_action(const char key, const pe_resource_t rsc,
	const pe_node_t node, const pe_working_set_t data_set)
	{
	GList *matches = NULL;
	pe_action_t *action = NULL;

	/* When rsc is NULL, it would be quicker to check data_set->singletons,
	* but checking all data_set->actions takes the node into account.
	*/
	matches = find_actions(((rsc == NULL)? data_set->actions : rsc->actions),
	key, node);
	if (matches == NULL) {
	return NULL;
	}
	CRM_LOG_ASSERT(!pcmk__list_of_multiple(matches));

	action = matches->data;
	g_list_free(matches);
	return action;
	}

	static xmlNode *
	find_rsc_op_entry_helper(const pe_resource_t rsc, const char key,
	gboolean include_disabled)
	{
	guint interval_ms = 0;
	gboolean do_retry = TRUE;
	char *local_key = NULL;
	const char *name = NULL;
	const char *interval_spec = NULL;
	char *match_key = NULL;
	xmlNode *op = NULL;
	xmlNode *operation = NULL;

	retry:
	for (operation = pcmk__xe_first_child(rsc->ops_xml); operation != NULL;
	operation = pcmk__xe_next(operation)) {

	if (pcmk__str_eq((const char *)operation->name, "op", pcmk__str_none)) {
	bool enabled = false;

	name = crm_element_value(operation, "name");
	interval_spec = crm_element_value(operation, XML_LRM_ATTR_INTERVAL);
	if (!include_disabled && pcmk__xe_get_bool_attr(operation, "enabled", &enabled) == pcmk_rc_ok &&
	!enabled) {
	continue;
	}

	interval_ms = crm_parse_interval_spec(interval_spec);
	match_key = pcmk__op_key(rsc->id, name, interval_ms);
	if (pcmk__str_eq(key, match_key, pcmk__str_casei)) {
	op = operation;
	}
	free(match_key);

	if (rsc->clone_name) {
	match_key = pcmk__op_key(rsc->clone_name, name, interval_ms);
	if (pcmk__str_eq(key, match_key, pcmk__str_casei)) {
	op = operation;
	}
	free(match_key);
	}

	if (op != NULL) {
	free(local_key);
	return op;
	}
	}
	}

	free(local_key);
	if (do_retry == FALSE) {
	return NULL;
	}

	do_retry = FALSE;
	if ((strstr(key, PCMK_ACTION_MIGRATE_TO) != NULL)
	\|\| (strstr(key, PCMK_ACTION_MIGRATE_FROM) != NULL)) {
	local_key = pcmk__op_key(rsc->id, "migrate", 0);
	key = local_key;
	goto retry;

	} else if (strstr(key, "_notify_")) {
	local_key = pcmk__op_key(rsc->id, PCMK_ACTION_NOTIFY, 0);
	key = local_key;
	goto retry;
	}

	return NULL;
	}

	xmlNode *
	find_rsc_op_entry(const pe_resource_t rsc, const char key)
	{
	return find_rsc_op_entry_helper(rsc, key, FALSE);
	}

	/*!
	* \internal
	* \brief Create a new action object
	*
	* \param[in] key Action key
	* \param[in] task Action name
	* \param[in,out] rsc Resource that action is for (if any)
	* \param[in] node Node that action is on (if any)
	* \param[in] optional Whether action should be considered optional
	* \param[in] for_graph Whether action should be recorded in transition graph
	* \param[in,out] data_set Cluster working set
	*
	* \return Newly allocated action
	* \note This function takes ownership of \p key. It is the caller's
	* responsibility to free the return value with pe_free_action().
	*/
	static pe_action_t *
	new_action(char key, const char task, pe_resource_t *rsc,
	const pe_node_t *node, bool optional, bool for_graph,
	pe_working_set_t *data_set)
	{
	pe_action_t *action = calloc(1, sizeof(pe_action_t));

	CRM_ASSERT(action != NULL);

	action->rsc = rsc;
	action->task = strdup(task); CRM_ASSERT(action->task != NULL);
	action->uuid = key;
	action->extra = pcmk__strkey_table(free, free);
	action->meta = pcmk__strkey_table(free, free);

	if (node) {
	action->node = pe__copy_node(node);
	}

	if (pcmk__str_eq(task, PCMK_ACTION_LRM_DELETE, pcmk__str_casei)) {
	// Resource history deletion for a node can be done on the DC
	pe__set_action_flags(action, pe_action_dc);
	}

	pe__set_action_flags(action, pe_action_runnable);
	if (optional) {
	pe__set_action_flags(action, pe_action_optional);
	} else {
	pe__clear_action_flags(action, pe_action_optional);
	}

	if (rsc != NULL) {
	guint interval_ms = 0;

	action->op_entry = find_rsc_op_entry_helper(rsc, key, TRUE);
	parse_op_key(key, NULL, NULL, &interval_ms);
	unpack_operation(action, action->op_entry, rsc->container, data_set,
	interval_ms);
	}

	if (for_graph) {
	pe_rsc_trace(rsc, "Created %s action %d (%s): %s for %s on %s",
	(optional? "optional" : "required"),
	data_set->action_id, key, task,
	((rsc == NULL)? "no resource" : rsc->id),
	pe__node_name(node));
	action->id = data_set->action_id++;

	data_set->actions = g_list_prepend(data_set->actions, action);
	if (rsc == NULL) {
	add_singleton(data_set, action);
	} else {
	rsc->actions = g_list_prepend(rsc->actions, action);
	}
	}
	return action;
	}

	/*!
	* \internal
	* \brief Evaluate node attribute values for an action
	*
	* \param[in,out] action Action to unpack attributes for
	* \param[in,out] data_set Cluster working set
	*/
	static void
	unpack_action_node_attributes(pe_action_t action, pe_working_set_t data_set)
	{
	if (!pcmk_is_set(action->flags, pe_action_have_node_attrs)
	&& (action->op_entry != NULL)) {

	pe_rule_eval_data_t rule_data = {
	.node_hash = action->node->details->attrs,
	.role = pcmk_role_unknown,
	.now = data_set->now,
	.match_data = NULL,
	.rsc_data = NULL,
	.op_data = NULL
	};

	pe__set_action_flags(action, pe_action_have_node_attrs);
	pe__unpack_dataset_nvpairs(action->op_entry, XML_TAG_ATTR_SETS,
	&rule_data, action->extra, NULL,
	FALSE, data_set);
	}
	}

	/*!
	* \internal
	* \brief Update an action's optional flag
	*
	* \param[in,out] action Action to update
	* \param[in] optional Requested optional status
	*/
	static void
	update_action_optional(pe_action_t *action, gboolean optional)
	{
	// Force a non-recurring action to be optional if its resource is unmanaged
	if ((action->rsc != NULL) && (action->node != NULL)
	&& !pcmk_is_set(action->flags, pe_action_pseudo)
	&& !pcmk_is_set(action->rsc->flags, pe_rsc_managed)
	&& (g_hash_table_lookup(action->meta,
	XML_LRM_ATTR_INTERVAL_MS) == NULL)) {
	pe_rsc_debug(action->rsc, "%s on %s is optional (%s is unmanaged)",
	action->uuid, pe__node_name(action->node),
	action->rsc->id);
	pe__set_action_flags(action, pe_action_optional);
	// We shouldn't clear runnable here because ... something

	// Otherwise require the action if requested
	} else if (!optional) {
	pe__clear_action_flags(action, pe_action_optional);
	}
	}

	static enum pe_quorum_policy
	effective_quorum_policy(pe_resource_t rsc, pe_working_set_t data_set)
	{
	enum pe_quorum_policy policy = data_set->no_quorum_policy;

	if (pcmk_is_set(data_set->flags, pe_flag_have_quorum)) {
	policy = no_quorum_ignore;

	} else if (data_set->no_quorum_policy == no_quorum_demote) {
	switch (rsc->role) {
	case pcmk_role_promoted:
	case pcmk_role_unpromoted:
	if (rsc->next_role > pcmk_role_unpromoted) {
	pe__set_next_role(rsc, pcmk_role_unpromoted,
	"no-quorum-policy=demote");
	}
	policy = no_quorum_ignore;
	break;
	default:
	policy = no_quorum_stop;
	break;
	}
	}
	return policy;
	}

	/*!
	* \internal
	* \brief Update a resource action's runnable flag
	*
	* \param[in,out] action Action to update
	* \param[in] for_graph Whether action should be recorded in transition graph
	* \param[in,out] data_set Cluster working set
	*
	* \note This may also schedule fencing if a stop is unrunnable.
	*/
	static void
	update_resource_action_runnable(pe_action_t *action, bool for_graph,
	pe_working_set_t *data_set)
	{
	if (pcmk_is_set(action->flags, pe_action_pseudo)) {
	return;
	}

	if (action->node == NULL) {
	pe_rsc_trace(action->rsc, "%s is unrunnable (unallocated)",
	action->uuid);
	pe__clear_action_flags(action, pe_action_runnable);

	} else if (!pcmk_is_set(action->flags, pe_action_dc)
	&& !(action->node->details->online)
	&& (!pe__is_guest_node(action->node)
	\|\| action->node->details->remote_requires_reset)) {
	pe__clear_action_flags(action, pe_action_runnable);
	do_crm_log((for_graph? LOG_WARNING: LOG_TRACE),
	"%s on %s is unrunnable (node is offline)",
	action->uuid, pe__node_name(action->node));
	if (pcmk_is_set(action->rsc->flags, pe_rsc_managed)
	&& for_graph
	&& pcmk__str_eq(action->task, PCMK_ACTION_STOP, pcmk__str_casei)
	&& !(action->node->details->unclean)) {
	pe_fence_node(data_set, action->node, "stop is unrunnable", false);
	}

	} else if (!pcmk_is_set(action->flags, pe_action_dc)
	&& action->node->details->pending) {
	pe__clear_action_flags(action, pe_action_runnable);
	do_crm_log((for_graph? LOG_WARNING: LOG_TRACE),
	"Action %s on %s is unrunnable (node is pending)",
	action->uuid, pe__node_name(action->node));

	} else if (action->needs == pcmk_requires_nothing) {
	pe_action_set_reason(action, NULL, TRUE);
	if (pe__is_guest_node(action->node)
	&& !pe_can_fence(data_set, action->node)) {
	/* An action that requires nothing usually does not require any
	* fencing in order to be runnable. However, there is an exception:
	* such an action cannot be completed if it is on a guest node whose
	* host is unclean and cannot be fenced.
	*/
	pe_rsc_debug(action->rsc, "%s on %s is unrunnable "
	"(node's host cannot be fenced)",
	action->uuid, pe__node_name(action->node));
	pe__clear_action_flags(action, pe_action_runnable);
	} else {
	pe_rsc_trace(action->rsc,
	"%s on %s does not require fencing or quorum",
	action->uuid, pe__node_name(action->node));
	pe__set_action_flags(action, pe_action_runnable);
	}

	} else {
	switch (effective_quorum_policy(action->rsc, data_set)) {
	case no_quorum_stop:
	pe_rsc_debug(action->rsc, "%s on %s is unrunnable (no quorum)",
	action->uuid, pe__node_name(action->node));
	pe__clear_action_flags(action, pe_action_runnable);
	pe_action_set_reason(action, "no quorum", true);
	break;

	case no_quorum_freeze:
	if (!action->rsc->fns->active(action->rsc, TRUE)
	\|\| (action->rsc->next_role > action->rsc->role)) {
	pe_rsc_debug(action->rsc,
	"%s on %s is unrunnable (no quorum)",
	action->uuid, pe__node_name(action->node));
	pe__clear_action_flags(action, pe_action_runnable);
	pe_action_set_reason(action, "quorum freeze", true);
	}
	break;

	default:
	//pe_action_set_reason(action, NULL, TRUE);
	pe__set_action_flags(action, pe_action_runnable);
	break;
	}
	}
	}

	/*!
	* \internal
	* \brief Update a resource object's flags for a new action on it
	*
	* \param[in,out] rsc Resource that action is for (if any)
	* \param[in] action New action
	*/
	static void
	update_resource_flags_for_action(pe_resource_t rsc, const pe_action_t action)
	{
	/* @COMPAT pe_rsc_starting and pe_rsc_stopping are not actually used
	* within Pacemaker, and should be deprecated and eventually removed
	*/
	if (pcmk__str_eq(action->task, PCMK_ACTION_STOP, pcmk__str_casei)) {
	pe__set_resource_flags(rsc, pe_rsc_stopping);

	} else if (pcmk__str_eq(action->task, PCMK_ACTION_START, pcmk__str_casei)) {
	if (pcmk_is_set(action->flags, pe_action_runnable)) {
	pe__set_resource_flags(rsc, pe_rsc_starting);
	} else {
	pe__clear_resource_flags(rsc, pe_rsc_starting);
	}
	}
	}

	static bool
	valid_stop_on_fail(const char *value)
	{
	return !pcmk__strcase_any_of(value, "standby", "demote", "stop", NULL);
	}

	static const char *
	unpack_operation_on_fail(pe_action_t * action)
	{
	const char *name = NULL;
	const char *role = NULL;
	const char *on_fail = NULL;
	const char *interval_spec = NULL;
	const char *value = g_hash_table_lookup(action->meta, XML_OP_ATTR_ON_FAIL);

	if (pcmk__str_eq(action->task, PCMK_ACTION_STOP, pcmk__str_casei)
	&& !valid_stop_on_fail(value)) {

	pcmk__config_err("Resetting '" XML_OP_ATTR_ON_FAIL "' for %s stop "
	"action to default value because '%s' is not "
	"allowed for stop", action->rsc->id, value);
	return NULL;

	} else if (pcmk__str_eq(action->task, PCMK_ACTION_DEMOTE, pcmk__str_casei)
	&& (value == NULL)) {
	// demote on_fail defaults to monitor value for promoted role if present
	xmlNode *operation = NULL;

	CRM_CHECK(action->rsc != NULL, return NULL);

	for (operation = pcmk__xe_first_child(action->rsc->ops_xml);
	(operation != NULL) && (value == NULL);
	operation = pcmk__xe_next(operation)) {
	bool enabled = false;

	if (!pcmk__str_eq((const char *)operation->name, "op", pcmk__str_none)) {
	continue;
	}
	name = crm_element_value(operation, "name");
	role = crm_element_value(operation, "role");
	on_fail = crm_element_value(operation, XML_OP_ATTR_ON_FAIL);
	interval_spec = crm_element_value(operation, XML_LRM_ATTR_INTERVAL);
	if (!on_fail) {
	continue;
	} else if (pcmk__xe_get_bool_attr(operation, "enabled", &enabled) == pcmk_rc_ok && !enabled) {
	continue;
	} else if (!pcmk__str_eq(name, PCMK_ACTION_MONITOR, pcmk__str_casei)
	\|\| !pcmk__strcase_any_of(role, PCMK__ROLE_PROMOTED,
	PCMK__ROLE_PROMOTED_LEGACY,
	NULL)) {
	continue;
	} else if (crm_parse_interval_spec(interval_spec) == 0) {
	continue;
	} else if (pcmk__str_eq(on_fail, "demote", pcmk__str_casei)) {
	continue;
	}

	value = on_fail;
	}
	} else if (pcmk__str_eq(action->task, PCMK_ACTION_LRM_DELETE,
	pcmk__str_casei)) {
	value = "ignore";

	} else if (pcmk__str_eq(value, "demote", pcmk__str_casei)) {
	name = crm_element_value(action->op_entry, "name");
	role = crm_element_value(action->op_entry, "role");
	interval_spec = crm_element_value(action->op_entry,
	XML_LRM_ATTR_INTERVAL);

	if (!pcmk__str_eq(name, PCMK_ACTION_PROMOTE, pcmk__str_casei)
	&& (!pcmk__str_eq(name, PCMK_ACTION_MONITOR, pcmk__str_casei)
	\|\| !pcmk__strcase_any_of(role, PCMK__ROLE_PROMOTED,
	PCMK__ROLE_PROMOTED_LEGACY, NULL)
	\|\| (crm_parse_interval_spec(interval_spec) == 0))) {
	pcmk__config_err("Resetting '" XML_OP_ATTR_ON_FAIL "' for %s %s "
	"action to default value because 'demote' is not "
	"allowed for it", action->rsc->id, name);
	return NULL;
	}
	}

	return value;
	}

	static int
	unpack_timeout(const char *value)
	{
	int timeout_ms = crm_get_msec(value);

	if (timeout_ms < 0) {
	timeout_ms = PCMK_DEFAULT_ACTION_TIMEOUT_MS;
	}
	return timeout_ms;
	}

	// true if value contains valid, non-NULL interval origin for recurring op
	static bool
	unpack_interval_origin(const char value, const xmlNode xml_obj,
	guint interval_ms, const crm_time_t *now,
	long long *start_delay)
	{
	long long result = 0;
	guint interval_sec = interval_ms / 1000;
	crm_time_t *origin = NULL;

	// Ignore unspecified values and non-recurring operations
	if ((value == NULL) \|\| (interval_ms == 0) \|\| (now == NULL)) {
	return false;
	}

	// Parse interval origin from text
	origin = crm_time_new(value);
	if (origin == NULL) {
	pcmk__config_err("Ignoring '" XML_OP_ATTR_ORIGIN "' for operation "
	"'%s' because '%s' is not valid",
	(ID(xml_obj)? ID(xml_obj) : "(missing ID)"), value);
	return false;
	}

	// Get seconds since origin (negative if origin is in the future)
	result = crm_time_get_seconds(now) - crm_time_get_seconds(origin);
	crm_time_free(origin);

	// Calculate seconds from closest interval to now
	result = result % interval_sec;

	// Calculate seconds remaining until next interval
	result = ((result <= 0)? 0 : interval_sec) - result;
	crm_info("Calculated a start delay of %llds for operation '%s'",
	result,
	(ID(xml_obj)? ID(xml_obj) : "(unspecified)"));

	if (start_delay != NULL) {
	start_delay = result 1000; // milliseconds
	}
	return true;
	}

	static int
	unpack_start_delay(const char value, GHashTable meta)
	{
	int start_delay = 0;

	if (value != NULL) {
	start_delay = crm_get_msec(value);

	if (start_delay < 0) {
	start_delay = 0;
	}

	if (meta) {
	g_hash_table_replace(meta, strdup(XML_OP_ATTR_START_DELAY),
	pcmk__itoa(start_delay));
	}
	}

	return start_delay;
	}

	static xmlNode *
	find_min_interval_mon(pe_resource_t * rsc, gboolean include_disabled)
	{
	guint interval_ms = 0;
	guint min_interval_ms = G_MAXUINT;
	const char *name = NULL;
	const char *interval_spec = NULL;
	xmlNode *op = NULL;
	xmlNode *operation = NULL;

	for (operation = pcmk__xe_first_child(rsc->ops_xml);
	operation != NULL;
	operation = pcmk__xe_next(operation)) {

	if (pcmk__str_eq((const char *)operation->name, "op", pcmk__str_none)) {
	bool enabled = false;

	name = crm_element_value(operation, "name");
	interval_spec = crm_element_value(operation, XML_LRM_ATTR_INTERVAL);
	if (!include_disabled && pcmk__xe_get_bool_attr(operation, "enabled", &enabled) == pcmk_rc_ok &&
	!enabled) {
	continue;
	}

	if (!pcmk__str_eq(name, PCMK_ACTION_MONITOR, pcmk__str_casei)) {
	continue;
	}

	interval_ms = crm_parse_interval_spec(interval_spec);

	if (interval_ms && (interval_ms < min_interval_ms)) {
	min_interval_ms = interval_ms;
	op = operation;
	}
	}
	}

	return op;
	}

	/*!
	* \brief Unpack operation XML into an action structure
	*
	* Unpack an operation's meta-attributes (normalizing the interval, timeout,
	* and start delay values as integer milliseconds), requirements, and
	* failure policy.
	*
	* \param[in,out] action Action to unpack into
	* \param[in] xml_obj Operation XML (or NULL if all defaults)
	* \param[in] container Resource that contains affected resource, if any
	* \param[in,out] data_set Cluster state
	* \param[in] interval_ms How frequently to perform the operation
	*/
	static void
	unpack_operation(pe_action_t action, const xmlNode xml_obj,
	const pe_resource_t *container,
	pe_working_set_t *data_set, guint interval_ms)
	{
	int timeout_ms = 0;
	const char *value = NULL;
	bool is_probe = false;

	pe_rsc_eval_data_t rsc_rule_data = {
	.standard = crm_element_value(action->rsc->xml, XML_AGENT_ATTR_CLASS),
	.provider = crm_element_value(action->rsc->xml, XML_AGENT_ATTR_PROVIDER),
	.agent = crm_element_value(action->rsc->xml, XML_EXPR_ATTR_TYPE)
	};

	pe_op_eval_data_t op_rule_data = {
	.op_name = action->task,
	.interval = interval_ms
	};

	pe_rule_eval_data_t rule_data = {
	.node_hash = NULL,
	.role = pcmk_role_unknown,
	.now = data_set->now,
	.match_data = NULL,
	.rsc_data = &rsc_rule_data,
	.op_data = &op_rule_data
	};

	CRM_CHECK(action && action->rsc, return);

	is_probe = pcmk_is_probe(action->task, interval_ms);

	// Cluster-wide <op_defaults> <meta_attributes>
	pe__unpack_dataset_nvpairs(data_set->op_defaults, XML_TAG_META_SETS, &rule_data,
	action->meta, NULL, FALSE, data_set);

	// Determine probe default timeout differently
	if (is_probe) {
	xmlNode *min_interval_mon = find_min_interval_mon(action->rsc, FALSE);

	if (min_interval_mon) {
	value = crm_element_value(min_interval_mon, XML_ATTR_TIMEOUT);
	if (value) {
	crm_trace("\t%s: Setting default timeout to minimum-interval "
	"monitor's timeout '%s'", action->uuid, value);
	g_hash_table_replace(action->meta, strdup(XML_ATTR_TIMEOUT),
	strdup(value));
	}
	}
	}

	if (xml_obj) {
	xmlAttrPtr xIter = NULL;

	// <op> <meta_attributes> take precedence over defaults
	pe__unpack_dataset_nvpairs(xml_obj, XML_TAG_META_SETS, &rule_data,
	action->meta, NULL, TRUE, data_set);

	/* Anything set as an <op> XML property has highest precedence.
	* This ensures we use the name and interval from the <op> tag.
	*/
	for (xIter = xml_obj->properties; xIter; xIter = xIter->next) {
	const char prop_name = (const char )xIter->name;
	const char *prop_value = pcmk__xml_attr_value(xIter);

	g_hash_table_replace(action->meta, strdup(prop_name), strdup(prop_value));
	}
	}

	g_hash_table_remove(action->meta, "id");

	// Normalize interval to milliseconds
	if (interval_ms > 0) {
	g_hash_table_replace(action->meta, strdup(XML_LRM_ATTR_INTERVAL),
	crm_strdup_printf("%u", interval_ms));
	} else {
	g_hash_table_remove(action->meta, XML_LRM_ATTR_INTERVAL);
	}

	/*
	* Timeout order of precedence:
	* 1. pcmk_monitor_timeout (if rsc has pcmk_ra_cap_fence_params
	* and task is start or a probe; pcmk_monitor_timeout works
	* by default for a recurring monitor)
	* 2. explicit op timeout on the primitive
	* 3. default op timeout
	* a. if probe, then min-interval monitor's timeout
	* b. else, in XML_CIB_TAG_OPCONFIG
	* 4. PCMK_DEFAULT_ACTION_TIMEOUT_MS
	*
	* #1 overrides general rule of <op> XML property having highest
	* precedence.
	*/
	if (pcmk_is_set(pcmk_get_ra_caps(rsc_rule_data.standard),
	pcmk_ra_cap_fence_params)
	&& (pcmk__str_eq(action->task, PCMK_ACTION_START, pcmk__str_casei)
	\|\| is_probe)) {

	GHashTable *params = pe_rsc_params(action->rsc, action->node, data_set);

	value = g_hash_table_lookup(params, "pcmk_monitor_timeout");

	if (value) {
	crm_trace("\t%s: Setting timeout to pcmk_monitor_timeout '%s', "
	"overriding default", action->uuid, value);
	g_hash_table_replace(action->meta, strdup(XML_ATTR_TIMEOUT),
	strdup(value));
	}
	}

	// Normalize timeout to positive milliseconds
	value = g_hash_table_lookup(action->meta, XML_ATTR_TIMEOUT);
	timeout_ms = unpack_timeout(value);
	g_hash_table_replace(action->meta, strdup(XML_ATTR_TIMEOUT),
	pcmk__itoa(timeout_ms));

	if (!pcmk__strcase_any_of(action->task, PCMK_ACTION_START,
	PCMK_ACTION_PROMOTE, NULL)) {
	action->needs = pcmk_requires_nothing;
	value = "nothing (not start or promote)";

	} else if (pcmk_is_set(action->rsc->flags, pe_rsc_needs_fencing)) {
	action->needs = pcmk_requires_fencing;
	value = "fencing";

	} else if (pcmk_is_set(action->rsc->flags, pe_rsc_needs_quorum)) {
	action->needs = pcmk_requires_quorum;
	value = "quorum";

	} else {
	action->needs = pcmk_requires_nothing;
	value = "nothing";
	}
	pe_rsc_trace(action->rsc, "%s requires %s", action->uuid, value);

	value = unpack_operation_on_fail(action);

	if (value == NULL) {

	} else if (pcmk__str_eq(value, "block", pcmk__str_casei)) {
	action->on_fail = action_fail_block;
	g_hash_table_insert(action->meta, strdup(XML_OP_ATTR_ON_FAIL), strdup("block"));
	value = "block"; // The above could destroy the original string

	} else if (pcmk__str_eq(value, "fence", pcmk__str_casei)) {
	action->on_fail = action_fail_fence;
	value = "node fencing";

	if (!pcmk_is_set(data_set->flags, pe_flag_stonith_enabled)) {
	pcmk__config_err("Resetting '" XML_OP_ATTR_ON_FAIL "' for "
	"operation '%s' to 'stop' because 'fence' is not "
	"valid when fencing is disabled", action->uuid);
	action->on_fail = action_fail_stop;
	action->fail_role = pcmk_role_stopped;
	value = "stop resource";
	}

	} else if (pcmk__str_eq(value, "standby", pcmk__str_casei)) {
	action->on_fail = action_fail_standby;
	value = "node standby";

	} else if (pcmk__strcase_any_of(value, "ignore", PCMK__VALUE_NOTHING,
	NULL)) {
	action->on_fail = action_fail_ignore;
	value = "ignore";

	} else if (pcmk__str_eq(value, "migrate", pcmk__str_casei)) {
	action->on_fail = action_fail_migrate;
	value = "force migration";

	} else if (pcmk__str_eq(value, "stop", pcmk__str_casei)) {
	action->on_fail = action_fail_stop;
	action->fail_role = pcmk_role_stopped;
	value = "stop resource";

	} else if (pcmk__str_eq(value, "restart", pcmk__str_casei)) {
	action->on_fail = action_fail_recover;
	value = "restart (and possibly migrate)";

	} else if (pcmk__str_eq(value, "restart-container", pcmk__str_casei)) {
	if (container) {
	action->on_fail = action_fail_restart_container;
	value = "restart container (and possibly migrate)";

	} else {
	value = NULL;
	}

	} else if (pcmk__str_eq(value, "demote", pcmk__str_casei)) {
	action->on_fail = action_fail_demote;
	value = "demote instance";

	} else {
	pe_err("Resource %s: Unknown failure type (%s)", action->rsc->id, value);
	value = NULL;
	}

	/* defaults */
	if (value == NULL && container) {
	action->on_fail = action_fail_restart_container;
	value = "restart container (and possibly migrate) (default)";

	/* For remote nodes, ensure that any failure that results in dropping an
	* active connection to the node results in fencing of the node.
	*
	* There are only two action failures that don't result in fencing.
	* 1. probes - probe failures are expected.
	* 2. start - a start failure indicates that an active connection does not already
	* exist. The user can set op on-fail=fence if they really want to fence start
	* failures. */
	} else if (((value == NULL) \|\| !pcmk_is_set(action->rsc->flags, pe_rsc_managed))
	&& pe__resource_is_remote_conn(action->rsc, data_set)
	&& !(pcmk__str_eq(action->task, PCMK_ACTION_MONITOR,
	pcmk__str_casei)
	&& (interval_ms == 0))
	&& !pcmk__str_eq(action->task, PCMK_ACTION_START, pcmk__str_casei)) {

	if (!pcmk_is_set(action->rsc->flags, pe_rsc_managed)) {
	action->on_fail = action_fail_stop;
	action->fail_role = pcmk_role_stopped;
	value = "stop unmanaged remote node (enforcing default)";

	} else {
	if (pcmk_is_set(data_set->flags, pe_flag_stonith_enabled)) {
	value = "fence remote node (default)";
	} else {
	value = "recover remote node connection (default)";
	}

	if (action->rsc->remote_reconnect_ms) {
	action->fail_role = pcmk_role_stopped;
	}
	action->on_fail = action_fail_reset_remote;
	}

	} else if ((value == NULL)
	&& pcmk__str_eq(action->task, PCMK_ACTION_STOP,
	pcmk__str_casei)) {
	if (pcmk_is_set(data_set->flags, pe_flag_stonith_enabled)) {
	action->on_fail = action_fail_fence;
	value = "resource fence (default)";

	} else {
	action->on_fail = action_fail_block;
	value = "resource block (default)";
	}

	} else if (value == NULL) {
	action->on_fail = action_fail_recover;
	value = "restart (and possibly migrate) (default)";
	}

	pe_rsc_trace(action->rsc, "%s failure handling: %s",
	action->uuid, value);

	value = NULL;
	if (xml_obj != NULL) {
	value = g_hash_table_lookup(action->meta, "role_after_failure");
	if (value) {
	pe_warn_once(pe_wo_role_after,
	"Support for role_after_failure is deprecated and will be removed in a future release");
	}
	}
	if (value != NULL && action->fail_role == pcmk_role_unknown) {
	action->fail_role = text2role(value);
	}
	/* defaults */
	if (action->fail_role == pcmk_role_unknown) {
	if (pcmk__str_eq(action->task, PCMK_ACTION_PROMOTE, pcmk__str_casei)) {
	action->fail_role = pcmk_role_unpromoted;
	} else {
	action->fail_role = pcmk_role_started;
	}
	}
	pe_rsc_trace(action->rsc, "%s failure results in: %s",
	action->uuid, role2text(action->fail_role));

	value = g_hash_table_lookup(action->meta, XML_OP_ATTR_START_DELAY);
	if (value) {
	unpack_start_delay(value, action->meta);
	} else {
	long long start_delay = 0;

	value = g_hash_table_lookup(action->meta, XML_OP_ATTR_ORIGIN);
	if (unpack_interval_origin(value, xml_obj, interval_ms, data_set->now,
	&start_delay)) {
	g_hash_table_replace(action->meta, strdup(XML_OP_ATTR_START_DELAY),
	crm_strdup_printf("%lld", start_delay));
	}
	}
	}

	/*!
	* \brief Create or update an action object
	*
	* \param[in,out] rsc Resource that action is for (if any)
	* \param[in,out] key Action key (must be non-NULL)
	* \param[in] task Action name (must be non-NULL)
	* \param[in] on_node Node that action is on (if any)
	* \param[in] optional Whether action should be considered optional
	* \param[in] save_action Whether action should be recorded in transition graph
	* \param[in,out] data_set Cluster working set
	*
	* \return Action object corresponding to arguments
	* \note This function takes ownership of (and might free) \p key. If
	* \p save_action is true, \p data_set will own the returned action,
	* otherwise it is the caller's responsibility to free the return value
	* with pe_free_action().
	*/
	pe_action_t *
	custom_action(pe_resource_t rsc, char key, const char *task,
	const pe_node_t *on_node, gboolean optional, gboolean save_action,
	pe_working_set_t *data_set)
	{
	pe_action_t *action = NULL;

	CRM_ASSERT((key != NULL) && (task != NULL) && (data_set != NULL));

	if (save_action) {
	action = find_existing_action(key, rsc, on_node, data_set);
	}

	if (action == NULL) {
	action = new_action(key, task, rsc, on_node, optional, save_action,
	data_set);
	} else {
	free(key);
	}

	update_action_optional(action, optional);

	if (rsc != NULL) {
	if (action->node != NULL) {
	unpack_action_node_attributes(action, data_set);
	}

	update_resource_action_runnable(action, save_action, data_set);

	if (save_action) {
	update_resource_flags_for_action(rsc, action);
	}
	}

	return action;
	}

	pe_action_t *
	get_pseudo_op(const char name, pe_working_set_t data_set)
	{
	pe_action_t *op = lookup_singleton(data_set, name);

	if (op == NULL) {
	op = custom_action(NULL, strdup(name), name, NULL, TRUE, TRUE, data_set);
	pe__set_action_flags(op, pe_action_pseudo\|pe_action_runnable);
	}
	return op;
	}

	static GList *
	find_unfencing_devices(GList candidates, GList matches)
	{
	for (GList *gIter = candidates; gIter != NULL; gIter = gIter->next) {
	pe_resource_t *candidate = gIter->data;

	if (candidate->children != NULL) {
	matches = find_unfencing_devices(candidate->children, matches);

	} else if (!pcmk_is_set(candidate->flags, pe_rsc_fence_device)) {
	continue;

	} else if (pcmk_is_set(candidate->flags, pe_rsc_needs_unfencing)) {
	matches = g_list_prepend(matches, candidate);

	} else if (pcmk__str_eq(g_hash_table_lookup(candidate->meta,
	PCMK_STONITH_PROVIDES),
	PCMK__VALUE_UNFENCING,
	pcmk__str_casei)) {
	matches = g_list_prepend(matches, candidate);
	}
	}
	return matches;
	}

	static int
	node_priority_fencing_delay(const pe_node_t *node,
	const pe_working_set_t *data_set)
	{
	int member_count = 0;
	int online_count = 0;
	int top_priority = 0;
	int lowest_priority = 0;
	GList *gIter = NULL;

	// `priority-fencing-delay` is disabled
	if (data_set->priority_fencing_delay <= 0) {
	return 0;
	}

	/* No need to request a delay if the fencing target is not a normal cluster
	* member, for example if it's a remote node or a guest node. */
	if (node->details->type != node_member) {
	return 0;
	}

	// No need to request a delay if the fencing target is in our partition
	if (node->details->online) {
	return 0;
	}

	for (gIter = data_set->nodes; gIter != NULL; gIter = gIter->next) {
	pe_node_t *n = gIter->data;

	if (n->details->type != node_member) {
	continue;
	}

	member_count ++;

	if (n->details->online) {
	online_count++;
	}

	if (member_count == 1
	\|\| n->details->priority > top_priority) {
	top_priority = n->details->priority;
	}

	if (member_count == 1
	\|\| n->details->priority < lowest_priority) {
	lowest_priority = n->details->priority;
	}
	}

	// No need to delay if we have more than half of the cluster members
	if (online_count > member_count / 2) {
	return 0;
	}

	/* All the nodes have equal priority.
	* Any configured corresponding `pcmk_delay_base/max` will be applied. */
	if (lowest_priority == top_priority) {
	return 0;
	}

	if (node->details->priority < top_priority) {
	return 0;
	}

	return data_set->priority_fencing_delay;
	}

	pe_action_t *
	pe_fence_op(pe_node_t node, const char op, bool optional,
	const char reason, bool priority_delay, pe_working_set_t data_set)
	{
	char *op_key = NULL;
	pe_action_t *stonith_op = NULL;

	if(op == NULL) {
	op = data_set->stonith_action;
	}

	op_key = crm_strdup_printf("%s-%s-%s",
	PCMK_ACTION_STONITH, node->details->uname, op);

	stonith_op = lookup_singleton(data_set, op_key);
	if(stonith_op == NULL) {
	stonith_op = custom_action(NULL, op_key, PCMK_ACTION_STONITH, node,
	TRUE, TRUE, data_set);

	add_hash_param(stonith_op->meta, XML_LRM_ATTR_TARGET, node->details->uname);
	add_hash_param(stonith_op->meta, XML_LRM_ATTR_TARGET_UUID, node->details->id);
	add_hash_param(stonith_op->meta, "stonith_action", op);

	if (pcmk_is_set(data_set->flags, pe_flag_enable_unfencing)) {
	/* Extra work to detect device changes
	*/
	GString *digests_all = g_string_sized_new(1024);
	GString *digests_secure = g_string_sized_new(1024);

	GList *matches = find_unfencing_devices(data_set->resources, NULL);

	char *key = NULL;
	char *value = NULL;

	for (GList *gIter = matches; gIter != NULL; gIter = gIter->next) {
	pe_resource_t *match = gIter->data;
	const char *agent = g_hash_table_lookup(match->meta,
	XML_ATTR_TYPE);
	op_digest_cache_t *data = NULL;

	data = pe__compare_fencing_digest(match, agent, node, data_set);
	if(data->rc == RSC_DIGEST_ALL) {
	optional = FALSE;
	crm_notice("Unfencing node %s because the definition of "
	"%s changed", pe__node_name(node), match->id);
	if (!pcmk__is_daemon && data_set->priv != NULL) {
	pcmk__output_t *out = data_set->priv;

	out->info(out,
	"notice: Unfencing node %s because the "
	"definition of %s changed",
	pe__node_name(node), match->id);
	}
	}

	pcmk__g_strcat(digests_all,
	match->id, ":", agent, ":",
	data->digest_all_calc, ",", NULL);
	pcmk__g_strcat(digests_secure,
	match->id, ":", agent, ":",
	data->digest_secure_calc, ",", NULL);
	}
	key = strdup(XML_OP_ATTR_DIGESTS_ALL);
	value = strdup((const char *) digests_all->str);
	CRM_ASSERT((key != NULL) && (value != NULL));
	g_hash_table_insert(stonith_op->meta, key, value);
	g_string_free(digests_all, TRUE);

	key = strdup(XML_OP_ATTR_DIGESTS_SECURE);
	value = strdup((const char *) digests_secure->str);
	CRM_ASSERT((key != NULL) && (value != NULL));
	g_hash_table_insert(stonith_op->meta, key, value);
	g_string_free(digests_secure, TRUE);
	}

	} else {
	free(op_key);
	}

	if (data_set->priority_fencing_delay > 0

	/* It's a suitable case where `priority-fencing-delay` applies.
	* At least add `priority-fencing-delay` field as an indicator. */
	&& (priority_delay

	/* The priority delay needs to be recalculated if this function has
	* been called by schedule_fencing_and_shutdowns() after node
	* priority has already been calculated by native_add_running().
	*/
	\|\| g_hash_table_lookup(stonith_op->meta,
	XML_CONFIG_ATTR_PRIORITY_FENCING_DELAY) != NULL)) {

	/* Add `priority-fencing-delay` to the fencing op even if it's 0 for
	* the targeting node. So that it takes precedence over any possible
	* `pcmk_delay_base/max`.
	*/
	char *delay_s = pcmk__itoa(node_priority_fencing_delay(node, data_set));

	g_hash_table_insert(stonith_op->meta,
	strdup(XML_CONFIG_ATTR_PRIORITY_FENCING_DELAY),
	delay_s);
	}

	if(optional == FALSE && pe_can_fence(data_set, node)) {
	pe__clear_action_flags(stonith_op, pe_action_optional);
	pe_action_set_reason(stonith_op, reason, false);

	} else if(reason && stonith_op->reason == NULL) {
	stonith_op->reason = strdup(reason);
	}

	return stonith_op;
	}

	void
	pe_free_action(pe_action_t * action)
	{
	if (action == NULL) {
	return;
	}
	g_list_free_full(action->actions_before, free); /* pe_action_wrapper_t* */
	g_list_free_full(action->actions_after, free); /* pe_action_wrapper_t* */
	if (action->extra) {
	g_hash_table_destroy(action->extra);
	}
	if (action->meta) {
	g_hash_table_destroy(action->meta);
	}
	free(action->cancel_task);
	free(action->reason);
	free(action->task);
	free(action->uuid);
	free(action->node);
	free(action);
	}

	int
	pe_get_configured_timeout(pe_resource_t rsc, const char action, pe_working_set_t *data_set)
	{
	xmlNode *child = NULL;
	GHashTable *action_meta = NULL;
	const char *timeout_spec = NULL;
	int timeout_ms = 0;

	pe_rule_eval_data_t rule_data = {
	.node_hash = NULL,
	.role = pcmk_role_unknown,
	.now = data_set->now,
	.match_data = NULL,
	.rsc_data = NULL,
	.op_data = NULL
	};

	for (child = first_named_child(rsc->ops_xml, XML_ATTR_OP);
	child != NULL; child = crm_next_same_xml(child)) {
	if (pcmk__str_eq(action, crm_element_value(child, XML_NVPAIR_ATTR_NAME),
	pcmk__str_casei)) {
	timeout_spec = crm_element_value(child, XML_ATTR_TIMEOUT);
	break;
	}
	}

	if (timeout_spec == NULL && data_set->op_defaults) {
	action_meta = pcmk__strkey_table(free, free);
	pe__unpack_dataset_nvpairs(data_set->op_defaults, XML_TAG_META_SETS,
	&rule_data, action_meta, NULL, FALSE, data_set);
	timeout_spec = g_hash_table_lookup(action_meta, XML_ATTR_TIMEOUT);
	}

	// @TODO check meta-attributes
	// @TODO maybe use min-interval monitor timeout as default for monitors

	timeout_ms = crm_get_msec(timeout_spec);
	if (timeout_ms < 0) {
	timeout_ms = PCMK_DEFAULT_ACTION_TIMEOUT_MS;
	}

	if (action_meta != NULL) {
	g_hash_table_destroy(action_meta);
	}
	return timeout_ms;
	}

	enum action_tasks
	get_complex_task(const pe_resource_t rsc, const char name)
	{
	enum action_tasks task = text2task(name);

	if ((rsc != NULL) && (rsc->variant == pe_native)) {
	switch (task) {
	- case stopped_rsc:
	+ case pcmk_action_stopped:
	case started_rsc:
	case action_demoted:
	case action_promoted:
	crm_trace("Folding %s back into its atomic counterpart for %s",
	name, rsc->id);
	--task;
	break;
	default:
	break;
	}
	}
	return task;
	}

	/*!
	* \internal
	* \brief Find first matching action in a list
	*
	* \param[in] input List of actions to search
	* \param[in] uuid If not NULL, action must have this UUID
	* \param[in] task If not NULL, action must have this action name
	* \param[in] on_node If not NULL, action must be on this node
	*
	* \return First action in list that matches criteria, or NULL if none
	*/
	pe_action_t *
	find_first_action(const GList input, const char uuid, const char *task,
	const pe_node_t *on_node)
	{
	CRM_CHECK(uuid \|\| task, return NULL);

	for (const GList *gIter = input; gIter != NULL; gIter = gIter->next) {
	pe_action_t action = (pe_action_t ) gIter->data;

	if (uuid != NULL && !pcmk__str_eq(uuid, action->uuid, pcmk__str_casei)) {
	continue;

	} else if (task != NULL && !pcmk__str_eq(task, action->task, pcmk__str_casei)) {
	continue;

	} else if (on_node == NULL) {
	return action;

	} else if (action->node == NULL) {
	continue;

	} else if (on_node->details == action->node->details) {
	return action;
	}
	}

	return NULL;
	}

	GList *
	find_actions(GList input, const char key, const pe_node_t *on_node)
	{
	GList *gIter = input;
	GList *result = NULL;

	CRM_CHECK(key != NULL, return NULL);

	for (; gIter != NULL; gIter = gIter->next) {
	pe_action_t action = (pe_action_t ) gIter->data;

	if (!pcmk__str_eq(key, action->uuid, pcmk__str_casei)) {
	continue;

	} else if (on_node == NULL) {
	crm_trace("Action %s matches (ignoring node)", key);
	result = g_list_prepend(result, action);

	} else if (action->node == NULL) {
	crm_trace("Action %s matches (unallocated, assigning to %s)",
	key, pe__node_name(on_node));

	action->node = pe__copy_node(on_node);
	result = g_list_prepend(result, action);

	} else if (on_node->details == action->node->details) {
	crm_trace("Action %s on %s matches", key, pe__node_name(on_node));
	result = g_list_prepend(result, action);
	}
	}

	return result;
	}

	GList *
	find_actions_exact(GList input, const char key, const pe_node_t *on_node)
	{
	GList *result = NULL;

	CRM_CHECK(key != NULL, return NULL);

	if (on_node == NULL) {
	return NULL;
	}

	for (GList *gIter = input; gIter != NULL; gIter = gIter->next) {
	pe_action_t action = (pe_action_t ) gIter->data;

	if ((action->node != NULL)
	&& pcmk__str_eq(key, action->uuid, pcmk__str_casei)
	&& pcmk__str_eq(on_node->details->id, action->node->details->id,
	pcmk__str_casei)) {

	crm_trace("Action %s on %s matches", key, pe__node_name(on_node));
	result = g_list_prepend(result, action);
	}
	}

	return result;
	}

	/*!
	* \brief Find all actions of given type for a resource
	*
	* \param[in] rsc Resource to search
	* \param[in] node Find only actions scheduled on this node
	* \param[in] task Action name to search for
	* \param[in] require_node If TRUE, NULL node or action node will not match
	*
	* \return List of actions found (or NULL if none)
	* \note If node is not NULL and require_node is FALSE, matching actions
	* without a node will be assigned to node.
	*/
	GList *
	pe__resource_actions(const pe_resource_t rsc, const pe_node_t node,
	const char *task, bool require_node)
	{
	GList *result = NULL;
	char *key = pcmk__op_key(rsc->id, task, 0);

	if (require_node) {
	result = find_actions_exact(rsc->actions, key, node);
	} else {
	result = find_actions(rsc->actions, key, node);
	}
	free(key);
	return result;
	}

	/*!
	* \internal
	* \brief Create an action reason string based on the action itself
	*
	* \param[in] action Action to create reason string for
	* \param[in] flag Action flag that was cleared
	*
	* \return Newly allocated string suitable for use as action reason
	* \note It is the caller's responsibility to free() the result.
	*/
	char *
	pe__action2reason(const pe_action_t *action, enum pe_action_flags flag)
	{
	const char *change = NULL;

	switch (flag) {
	case pe_action_runnable:
	change = "unrunnable";
	break;
	case pe_action_migrate_runnable:
	change = "unmigrateable";
	break;
	case pe_action_optional:
	change = "required";
	break;
	default:
	// Bug: caller passed unsupported flag
	CRM_CHECK(change != NULL, change = "");
	break;
	}
	return crm_strdup_printf("%s%s%s %s", change,
	(action->rsc == NULL)? "" : " ",
	(action->rsc == NULL)? "" : action->rsc->id,
	action->task);
	}

	void pe_action_set_reason(pe_action_t action, const char reason, bool overwrite)
	{
	if (action->reason != NULL && overwrite) {
	pe_rsc_trace(action->rsc, "Changing %s reason from '%s' to '%s'",
	action->uuid, action->reason, pcmk__s(reason, "(none)"));
	} else if (action->reason == NULL) {
	pe_rsc_trace(action->rsc, "Set %s reason to '%s'",
	action->uuid, pcmk__s(reason, "(none)"));
	} else {
	// crm_assert(action->reason != NULL && !overwrite);
	return;
	}

	pcmk__str_update(&action->reason, reason);
	}

	/*!
	* \internal
	* \brief Create an action to clear a resource's history from CIB
	*
	* \param[in,out] rsc Resource to clear
	* \param[in] node Node to clear history on
	* \param[in,out] data_set Cluster working set
	*
	* \return New action to clear resource history
	*/
	pe_action_t *
	pe__clear_resource_history(pe_resource_t rsc, const pe_node_t node,
	pe_working_set_t *data_set)
	{
	char *key = NULL;

	CRM_ASSERT(rsc && node);
	key = pcmk__op_key(rsc->id, PCMK_ACTION_LRM_DELETE, 0);
	return custom_action(rsc, key, PCMK_ACTION_LRM_DELETE, node, FALSE, TRUE,
	data_set);
	}

	#define sort_return(an_int, why) do { \
	free(a_uuid); \
	free(b_uuid); \
	crm_trace("%s (%d) %c %s (%d) : %s", \
	a_xml_id, a_call_id, an_int>0?'>':an_int<0?'<':'=', \
	b_xml_id, b_call_id, why); \
	return an_int; \
	} while(0)

	int
	pe__is_newer_op(const xmlNode xml_a, const xmlNode xml_b,
	bool same_node_default)
	{
	int a_call_id = -1;
	int b_call_id = -1;

	char *a_uuid = NULL;
	char *b_uuid = NULL;

	const char *a_xml_id = crm_element_value(xml_a, XML_ATTR_ID);
	const char *b_xml_id = crm_element_value(xml_b, XML_ATTR_ID);

	const char *a_node = crm_element_value(xml_a, XML_LRM_ATTR_TARGET);
	const char *b_node = crm_element_value(xml_b, XML_LRM_ATTR_TARGET);
	bool same_node = true;

	/* @COMPAT The on_node attribute was added to last_failure as of 1.1.13 (via
	* 8b3ca1c) and the other entries as of 1.1.12 (via 0b07b5c).
	*
	* In case that any of the lrm_rsc_op entries doesn't have on_node
	* attribute, we need to explicitly tell whether the two operations are on
	* the same node.
	*/
	if (a_node == NULL \|\| b_node == NULL) {
	same_node = same_node_default;

	} else {
	same_node = pcmk__str_eq(a_node, b_node, pcmk__str_casei);
	}

	if (same_node && pcmk__str_eq(a_xml_id, b_xml_id, pcmk__str_none)) {
	/* We have duplicate lrm_rsc_op entries in the status
	* section which is unlikely to be a good thing
	* - we can handle it easily enough, but we need to get
	* to the bottom of why it's happening.
	*/
	pe_err("Duplicate lrm_rsc_op entries named %s", a_xml_id);
	sort_return(0, "duplicate");
	}

	crm_element_value_int(xml_a, XML_LRM_ATTR_CALLID, &a_call_id);
	crm_element_value_int(xml_b, XML_LRM_ATTR_CALLID, &b_call_id);

	if (a_call_id == -1 && b_call_id == -1) {
	/* both are pending ops so it doesn't matter since
	* stops are never pending
	*/
	sort_return(0, "pending");

	} else if (same_node && a_call_id >= 0 && a_call_id < b_call_id) {
	sort_return(-1, "call id");

	} else if (same_node && b_call_id >= 0 && a_call_id > b_call_id) {
	sort_return(1, "call id");

	} else if (a_call_id >= 0 && b_call_id >= 0
	&& (!same_node \|\| a_call_id == b_call_id)) {
	/*
	* The op and last_failed_op are the same
	* Order on last-rc-change
	*/
	time_t last_a = -1;
	time_t last_b = -1;

	crm_element_value_epoch(xml_a, XML_RSC_OP_LAST_CHANGE, &last_a);
	crm_element_value_epoch(xml_b, XML_RSC_OP_LAST_CHANGE, &last_b);

	crm_trace("rc-change: %lld vs %lld",
	(long long) last_a, (long long) last_b);
	if (last_a >= 0 && last_a < last_b) {
	sort_return(-1, "rc-change");

	} else if (last_b >= 0 && last_a > last_b) {
	sort_return(1, "rc-change");
	}
	sort_return(0, "rc-change");

	} else {
	/* One of the inputs is a pending operation
	* Attempt to use XML_ATTR_TRANSITION_MAGIC to determine its age relative to the other
	*/

	int a_id = -1;
	int b_id = -1;

	const char *a_magic = crm_element_value(xml_a, XML_ATTR_TRANSITION_MAGIC);
	const char *b_magic = crm_element_value(xml_b, XML_ATTR_TRANSITION_MAGIC);

	CRM_CHECK(a_magic != NULL && b_magic != NULL, sort_return(0, "No magic"));
	if (!decode_transition_magic(a_magic, &a_uuid, &a_id, NULL, NULL, NULL,
	NULL)) {
	sort_return(0, "bad magic a");
	}
	if (!decode_transition_magic(b_magic, &b_uuid, &b_id, NULL, NULL, NULL,
	NULL)) {
	sort_return(0, "bad magic b");
	}
	/* try to determine the relative age of the operation...
	* some pending operations (e.g. a start) may have been superseded
	* by a subsequent stop
	*
	* [a\|b]_id == -1 means it's a shutdown operation and _always_ comes last
	*/
	if (!pcmk__str_eq(a_uuid, b_uuid, pcmk__str_casei) \|\| a_id == b_id) {
	/*
	* some of the logic in here may be redundant...
	*
	* if the UUID from the TE doesn't match then one better
	* be a pending operation.
	* pending operations don't survive between elections and joins
	* because we query the LRM directly
	*/

	if (b_call_id == -1) {
	sort_return(-1, "transition + call");

	} else if (a_call_id == -1) {
	sort_return(1, "transition + call");
	}

	} else if ((a_id >= 0 && a_id < b_id) \|\| b_id == -1) {
	sort_return(-1, "transition");

	} else if ((b_id >= 0 && a_id > b_id) \|\| a_id == -1) {
	sort_return(1, "transition");
	}
	}

	/* we should never end up here */
	CRM_CHECK(FALSE, sort_return(0, "default"));
	}

	gint
	sort_op_by_callid(gconstpointer a, gconstpointer b)
	{
	const xmlNode *xml_a = a;
	const xmlNode *xml_b = b;

	return pe__is_newer_op(xml_a, xml_b, true);
	}

	/*!
	* \internal
	* \brief Create a new pseudo-action for a resource
	*
	* \param[in,out] rsc Resource to create action for
	* \param[in] task Action name
	* \param[in] optional Whether action should be considered optional
	* \param[in] runnable Whethe action should be considered runnable
	*
	* \return New action object corresponding to arguments
	*/
	pe_action_t *
	pe__new_rsc_pseudo_action(pe_resource_t rsc, const char task, bool optional,
	bool runnable)
	{
	pe_action_t *action = NULL;

	CRM_ASSERT((rsc != NULL) && (task != NULL));

	action = custom_action(rsc, pcmk__op_key(rsc->id, task, 0), task, NULL,
	optional, TRUE, rsc->cluster);
	pe__set_action_flags(action, pe_action_pseudo);
	if (runnable) {
	pe__set_action_flags(action, pe_action_runnable);
	}
	return action;
	}

	/*!
	* \internal
	* \brief Add the expected result to an action
	*
	* \param[in,out] action Action to add expected result to
	* \param[in] expected_result Expected result to add
	*
	* \note This is more efficient than calling add_hash_param().
	*/
	void
	pe__add_action_expected_result(pe_action_t *action, int expected_result)
	{
	char *name = NULL;

	CRM_ASSERT((action != NULL) && (action->meta != NULL));

	name = strdup(XML_ATTR_TE_TARGET_RC);
	CRM_ASSERT (name != NULL);

	g_hash_table_insert(action->meta, name, pcmk__itoa(expected_result));
	}

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