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	diff --git a/lib/pacemaker/pcmk_sched_actions.c b/lib/pacemaker/pcmk_sched_actions.c
	index 0ae56011d8..c5f801abe5 100644
	--- a/lib/pacemaker/pcmk_sched_actions.c
	+++ b/lib/pacemaker/pcmk_sched_actions.c
	@@ -1,1160 +1,1201 @@
	/*
	* Copyright 2004-2021 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] 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 enum pe_action_flags
	action_flags_for_ordering(pe_action_t action, pe_node_t node)
	{
	bool runnable = false;
	enum pe_action_flags 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, 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 = no_action;
	enum action_tasks remapped_task = no_action;

	// Only non-notify actions for collective resources need remapping
	if ((strstr(first_uuid, "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 stop_rsc:
	case start_rsc:
	case action_notify:
	case action_promote:
	case action_demote:
	remapped_task = first_task + 1;
	break;
	case stopped_rsc:
	case started_rsc:
	case action_notified:
	case action_promoted:
	case action_demoted:
	remapped_task = first_task;
	break;
	case monitor_rsc:
	case shutdown_crm:
	case stonith_node:
	break;
	default:
	crm_err("Unknown action '%s' in ordering", first_task_str);
	break;
	}

	if (remapped_task != no_action) {
	/* 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 Update flags for ordering's actions appropriately for ordering's flags
	*
	* \param[in] first First action in an ordering
	* \param[in] 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] order Action wrapper for \p first in ordering
	* \param[in] data_set Cluster working set
	*
	* \return Mask of pe_graph_updated_first and/or pe_graph_updated_then
	*/
	static enum pe_graph_flags
	update_action_for_ordering_flags(pe_action_t first, pe_action_t then,
	enum pe_action_flags first_flags,
	enum pe_action_flags then_flags,
	pe_action_wrapper_t *order,
	pe_working_set_t *data_set)
	{
	enum pe_graph_flags changed = pe_graph_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, node->details->uname);
	}

	if (pcmk_is_set(order->type, pe_order_implies_then)) {
	if (then->rsc != NULL) {
	changed \|= then->rsc->cmds->update_actions(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);
	pe__set_graph_flags(changed, first, pe_graph_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 \|= then->rsc->cmds->update_actions(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 \|= first->rsc->cmds->update_actions(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);
	pe__set_graph_flags(changed, first, pe_graph_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 \|= then->rsc->cmds->update_actions(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 \|= then->rsc->cmds->update_actions(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);
	pe__set_graph_flags(changed, first, pe_graph_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 \|= then->rsc->cmds->update_actions(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 \|= then->rsc->cmds->update_actions(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);
	pe__set_graph_flags(changed, first, pe_graph_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 \|= then->rsc->cmds->update_actions(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 \|= then->rsc->cmds->update_actions(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 \|= then->rsc->cmds->update_actions(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 \|= then->rsc->cmds->update_actions(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, RSC_STOP, pcmk__str_casei)) {

	if (pcmk_is_set(then->flags, pe_action_runnable)) {
	pe__clear_action_flags(then, pe_action_runnable);
	pe__set_graph_flags(changed, first, pe_graph_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] then Action to update
	* \param[in] data_set Cluster working set
	*/
	void
	pcmk__update_action_for_orderings(pe_action_t then, pe_working_set_t data_set)
	{
	GList *lpc = NULL;
	enum pe_graph_flags changed = pe_graph_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, RSC_START, pcmk__str_casei)) {

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

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

	then_node = then->rsc->fns->location(then->rsc, NULL, FALSE);
	if (then_node != NULL) {
	pe_rsc_trace(then->rsc, "Found node %s for 'then' %s",
	then_node->details->uname, 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)
	&& (first_node->details != then_node->details)) {

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

	pe__clear_graph_flags(changed, then, pe_graph_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, CRMD_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 (0x%.6x) then %s (0x%.6x): type=0x%.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.
	*/
	enum pe_action_flags 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
	*/
	pe__set_graph_flags(changed, then,
	pe_graph_updated_then\|pe_graph_disable);
	}

	if (pcmk_is_set(changed, pe_graph_disable)) {
	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);
	pe__clear_graph_flags(changed, then, pe_graph_disable);
	other->type = pe_order_none;
	}

	if (pcmk_is_set(changed, pe_graph_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) {
	pe__clear_graph_flags(changed, then, pe_graph_updated_then);
	} else {
	pe__set_graph_flags(changed, then, pe_graph_updated_then);
	}
	}

	if (pcmk_is_set(changed, pe_graph_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_colocated_starts(then, data_set);
	}
	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);
	}
	}
	}

	/*!
	* \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, 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) {
	GList *iter = NULL;

	crm_trace("\t\t====== Preceding Actions");
	for (iter = action->actions_before; iter != NULL; iter = iter->next) {
	pe_action_wrapper_t other = (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) {
	pe_action_wrapper_t other = (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 pseudo-action for a resource
	*
	* \param[in] 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 *
	pcmk__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 Create an executor cancel action
	*
	* \param[in] rsc Resource of action to cancel
	* \param[in] task Name of action to cancel
	* \param[in] interval_ms Interval of action to cancel
	* \param[in] node Node of action to cancel
	* \param[in] data_set Working set of cluster
	*
	* \return Created op
	*/
	pe_action_t *
	pcmk__new_cancel_action(pe_resource_t rsc, const char task, guint interval_ms,
	pe_node_t *node)
	{
	pe_action_t *cancel_op = NULL;
	char *key = NULL;
	char *interval_ms_s = NULL;

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

	// @TODO dangerous if possible to schedule another action with this key
	key = pcmk__op_key(rsc->id, task, interval_ms);

	cancel_op = custom_action(rsc, key, RSC_CANCEL, node, FALSE, TRUE,
	rsc->cluster);

	free(cancel_op->task);
	cancel_op->task = strdup(RSC_CANCEL);

	free(cancel_op->cancel_task);
	cancel_op->cancel_task = strdup(task);

	interval_ms_s = crm_strdup_printf("%u", interval_ms);
	add_hash_param(cancel_op->meta, XML_LRM_ATTR_TASK, task);
	add_hash_param(cancel_op->meta, XML_LRM_ATTR_INTERVAL_MS, interval_ms_s);
	free(interval_ms_s);

	return cancel_op;
	}

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

	CRM_ASSERT((node != NULL) && (data_set != NULL));

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

	shutdown_op = custom_action(NULL, shutdown_id, CRM_OP_SHUTDOWN, node, FALSE,
	TRUE, data_set);

	pcmk__order_stops_before_shutdown(node, shutdown_op, data_set);
	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] update XML to add digest to
	*/
	static void
	add_op_digest_to_xml(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
	* \param[in] level A log message will be logged at this level
	*
	* \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, int level)
	{
	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);
	do_crm_log(level, "%s: Updating resource %s after %s op %s (interval=%u)",
	origin, op->rsc_id, op->op_type,
	pcmk_exec_status_str(op->op_status), op->interval_ms);

	crm_trace("DC version: %s", caller_version);

	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, CRMD_ACTION_RELOAD, CRMD_ACTION_RELOAD_AGENT,
	NULL)) {
	if (op->op_status == PCMK_EXEC_DONE) {
	task = CRMD_ACTION_START;
	} else {
	task = CRMD_ACTION_STATUS;
	}
	}

	key = pcmk__op_key(op->rsc_id, task, op->interval_ms);
	if (pcmk__str_eq(task, CRMD_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);
	}

	} 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, exit_reason == NULL ? "" : 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, CRMD_ACTION_MIGRATE, CRMD_ACTION_MIGRATED, 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)
	\|\| (action->rsc->lock_node == NULL) \|\| (action->node == NULL)
	\|\| (action->node->details != action->rsc->lock_node->details)) {
	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, RSC_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] 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;
	}
	}
	}
	+
	+void
	+LogNodeActions(pe_working_set_t *data_set)
	+{
	+ pcmk__output_t *out = data_set->priv;
	+
	+ 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;
	+ } else if (pcmk_is_set(action->flags, pe_action_optional)) {
	+ continue;
	+ }
	+
	+ if (pe__is_guest_node(action->node)) {
	+ node_name = crm_strdup_printf("%s (resource: %s)",
	+ action->node->details->uname,
	+ action->node->details->remote_rsc->container->id);
	+ } else if (action->node != NULL) {
	+ node_name = crm_strdup_printf("%s", action->node->details->uname);
	+ }
	+
	+
	+ if (pcmk__str_eq(action->task, CRM_OP_SHUTDOWN, pcmk__str_casei)) {
	+ task = strdup("Shutdown");
	+
	+ } else if (pcmk__str_eq(action->task, CRM_OP_FENCE, pcmk__str_casei)) {
	+ const char *op = g_hash_table_lookup(action->meta, "stonith_action");
	+
	+ task = crm_strdup_printf("Fence (%s)", op);
	+ }
	+
	+ out->message(out, "node-action", task, node_name, action->reason);
	+
	+ free(node_name);
	+ free(task);
	+ }
	+}
	diff --git a/lib/pacemaker/pcmk_sched_allocate.c b/lib/pacemaker/pcmk_sched_allocate.c
	index 6dbdbc626f..e9eeb2312e 100644
	--- a/lib/pacemaker/pcmk_sched_allocate.c
	+++ b/lib/pacemaker/pcmk_sched_allocate.c
	@@ -1,2147 +1,2109 @@
	/*
	* Copyright 2004-2021 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"

	CRM_TRACE_INIT_DATA(pacemaker);

	extern bool pcmk__is_daemon;

	void set_alloc_actions(pe_working_set_t * data_set);
	extern void ReloadRsc(pe_resource_t * rsc, pe_node_t node, pe_working_set_t data_set);
	extern gboolean DeleteRsc(pe_resource_t * rsc, pe_node_t * node, gboolean optional, pe_working_set_t * data_set);

	resource_alloc_functions_t resource_class_alloc_functions[] = {
	{
	pcmk__native_merge_weights,
	pcmk__native_allocate,
	native_create_actions,
	native_create_probe,
	native_internal_constraints,
	native_rsc_colocation_lh,
	native_rsc_colocation_rh,
	pcmk__colocated_resources,
	native_rsc_location,
	native_action_flags,
	native_update_actions,
	pcmk__output_resource_actions,
	native_expand,
	native_append_meta,
	},
	{
	pcmk__group_merge_weights,
	pcmk__group_allocate,
	group_create_actions,
	native_create_probe,
	group_internal_constraints,
	group_rsc_colocation_lh,
	group_rsc_colocation_rh,
	pcmk__group_colocated_resources,
	group_rsc_location,
	group_action_flags,
	group_update_actions,
	pcmk__output_resource_actions,
	group_expand,
	group_append_meta,
	},
	{
	pcmk__native_merge_weights,
	pcmk__clone_allocate,
	clone_create_actions,
	clone_create_probe,
	clone_internal_constraints,
	clone_rsc_colocation_lh,
	clone_rsc_colocation_rh,
	pcmk__colocated_resources,
	clone_rsc_location,
	clone_action_flags,
	pcmk__multi_update_actions,
	pcmk__output_resource_actions,
	clone_expand,
	clone_append_meta,
	},
	{
	pcmk__native_merge_weights,
	pcmk__bundle_allocate,
	pcmk__bundle_create_actions,
	pcmk__bundle_create_probe,
	pcmk__bundle_internal_constraints,
	pcmk__bundle_rsc_colocation_lh,
	pcmk__bundle_rsc_colocation_rh,
	pcmk__colocated_resources,
	pcmk__bundle_rsc_location,
	pcmk__bundle_action_flags,
	pcmk__multi_update_actions,
	pcmk__output_bundle_actions,
	pcmk__bundle_expand,
	pcmk__bundle_append_meta,
	}
	};

	static gboolean
	check_rsc_parameters(pe_resource_t * rsc, pe_node_t * node, xmlNode * rsc_entry,
	gboolean active_here, pe_working_set_t * data_set)
	{
	int attr_lpc = 0;
	gboolean force_restart = FALSE;
	gboolean delete_resource = FALSE;
	gboolean changed = FALSE;

	const char *value = NULL;
	const char *old_value = NULL;

	const char *attr_list[] = {
	XML_ATTR_TYPE,
	XML_AGENT_ATTR_CLASS,
	XML_AGENT_ATTR_PROVIDER
	};

	for (; attr_lpc < PCMK__NELEM(attr_list); attr_lpc++) {
	value = crm_element_value(rsc->xml, attr_list[attr_lpc]);
	old_value = crm_element_value(rsc_entry, attr_list[attr_lpc]);
	if (value == old_value /* i.e. NULL */
	\|\| pcmk__str_eq(value, old_value, pcmk__str_none)) {
	continue;
	}

	changed = TRUE;
	trigger_unfencing(rsc, node, "Device definition changed", NULL, data_set);
	if (active_here) {
	force_restart = TRUE;
	crm_notice("Forcing restart of %s on %s, %s changed: %s -> %s",
	rsc->id, node->details->uname, attr_list[attr_lpc],
	crm_str(old_value), crm_str(value));
	}
	}
	if (force_restart) {
	/* make sure the restart happens */
	stop_action(rsc, node, FALSE);
	pe__set_resource_flags(rsc, pe_rsc_start_pending);
	delete_resource = TRUE;

	} else if (changed) {
	delete_resource = TRUE;
	}
	return delete_resource;
	}

	static void
	CancelXmlOp(pe_resource_t * rsc, xmlNode * xml_op, pe_node_t * active_node,
	const char reason, pe_working_set_t data_set)
	{
	guint interval_ms = 0;
	pe_action_t *cancel = NULL;

	const char *task = NULL;
	const char *call_id = NULL;

	CRM_CHECK(xml_op != NULL, return);
	CRM_CHECK(active_node != NULL, return);

	task = crm_element_value(xml_op, XML_LRM_ATTR_TASK);
	call_id = crm_element_value(xml_op, XML_LRM_ATTR_CALLID);
	crm_element_value_ms(xml_op, XML_LRM_ATTR_INTERVAL_MS, &interval_ms);

	crm_info("Action " PCMK__OP_FMT " on %s will be stopped: %s",
	rsc->id, task, interval_ms,
	active_node->details->uname, (reason? reason : "unknown"));

	cancel = pcmk__new_cancel_action(rsc, task, interval_ms, active_node);
	add_hash_param(cancel->meta, XML_LRM_ATTR_CALLID, call_id);
	pcmk__new_ordering(rsc, stop_key(rsc), NULL, rsc, NULL, cancel,
	pe_order_optional, data_set);
	}

	static gboolean
	check_action_definition(pe_resource_t * rsc, pe_node_t * active_node, xmlNode * xml_op,
	pe_working_set_t * data_set)
	{
	char *key = NULL;
	guint interval_ms = 0;
	const op_digest_cache_t *digest_data = NULL;
	gboolean did_change = FALSE;

	const char *task = crm_element_value(xml_op, XML_LRM_ATTR_TASK);
	const char *digest_secure = NULL;

	CRM_CHECK(active_node != NULL, return FALSE);

	crm_element_value_ms(xml_op, XML_LRM_ATTR_INTERVAL_MS, &interval_ms);
	if (interval_ms > 0) {
	xmlNode *op_match = NULL;

	/* we need to reconstruct the key because of the way we used to construct resource IDs */
	key = pcmk__op_key(rsc->id, task, interval_ms);

	pe_rsc_trace(rsc, "Checking parameters for %s", key);
	op_match = find_rsc_op_entry(rsc, key);

	if ((op_match == NULL)
	&& pcmk_is_set(data_set->flags, pe_flag_stop_action_orphans)) {
	CancelXmlOp(rsc, xml_op, active_node, "orphan", data_set);
	free(key);
	return TRUE;

	} else if (op_match == NULL) {
	pe_rsc_debug(rsc, "Orphan action detected: %s on %s", key, active_node->details->uname);
	free(key);
	return TRUE;
	}
	free(key);
	key = NULL;
	}

	crm_trace("Testing " PCMK__OP_FMT " on %s",
	rsc->id, task, interval_ms, active_node->details->uname);
	if ((interval_ms == 0) && pcmk__str_eq(task, RSC_STATUS, pcmk__str_casei)) {
	/* Reload based on the start action not a probe */
	task = RSC_START;

	} else if ((interval_ms == 0) && pcmk__str_eq(task, RSC_MIGRATED, pcmk__str_casei)) {
	/* Reload based on the start action not a migrate */
	task = RSC_START;
	} else if ((interval_ms == 0) && pcmk__str_eq(task, RSC_PROMOTE, pcmk__str_casei)) {
	/* Reload based on the start action not a promote */
	task = RSC_START;
	}

	digest_data = rsc_action_digest_cmp(rsc, xml_op, active_node, data_set);

	if (pcmk_is_set(data_set->flags, pe_flag_sanitized)) {
	digest_secure = crm_element_value(xml_op, XML_LRM_ATTR_SECURE_DIGEST);
	}

	if(digest_data->rc != RSC_DIGEST_MATCH
	&& digest_secure
	&& digest_data->digest_secure_calc
	&& strcmp(digest_data->digest_secure_calc, digest_secure) == 0) {
	if (!pcmk__is_daemon && data_set->priv != NULL) {
	pcmk__output_t *out = data_set->priv;
	out->info(out, "Only 'private' parameters to "
	PCMK__OP_FMT " on %s changed: %s", rsc->id, task,
	interval_ms, active_node->details->uname,
	crm_element_value(xml_op, XML_ATTR_TRANSITION_MAGIC));
	}

	} else if (digest_data->rc == RSC_DIGEST_RESTART) {
	/* Changes that force a restart */
	pe_action_t *required = NULL;

	did_change = TRUE;
	key = pcmk__op_key(rsc->id, task, interval_ms);
	crm_log_xml_info(digest_data->params_restart, "params:restart");
	required = custom_action(rsc, key, task, NULL, FALSE, TRUE, data_set);
	pe_action_set_reason(required, "resource definition change", true);
	trigger_unfencing(rsc, active_node, "Device parameters changed", NULL, data_set);

	} else if ((digest_data->rc == RSC_DIGEST_ALL) \|\| (digest_data->rc == RSC_DIGEST_UNKNOWN)) {
	// Changes that can potentially be handled by an agent reload
	const char *digest_restart = crm_element_value(xml_op, XML_LRM_ATTR_RESTART_DIGEST);

	did_change = TRUE;
	trigger_unfencing(rsc, active_node, "Device parameters changed (reload)", NULL, data_set);
	crm_log_xml_info(digest_data->params_all, "params:reload");
	key = pcmk__op_key(rsc->id, task, interval_ms);

	if (interval_ms > 0) {
	pe_action_t *op = NULL;

	#if 0
	/* Always reload/restart the entire resource */
	ReloadRsc(rsc, active_node, data_set);
	#else
	/* Re-sending the recurring op is sufficient - the old one will be cancelled automatically */
	op = custom_action(rsc, key, task, active_node, TRUE, TRUE, data_set);
	pe__set_action_flags(op, pe_action_reschedule);
	#endif

	} else if (digest_restart) {
	pe_rsc_trace(rsc, "Reloading '%s' action for resource %s", task, rsc->id);

	/* Reload this resource */
	ReloadRsc(rsc, active_node, data_set);
	free(key);

	} else {
	pe_action_t *required = NULL;
	pe_rsc_trace(rsc, "Resource %s doesn't support agent reloads",
	rsc->id);

	/* Re-send the start/demote/promote op
	* Recurring ops will be detected independently
	*/
	required = custom_action(rsc, key, task, NULL, FALSE, TRUE,
	data_set);
	pe_action_set_reason(required, "resource definition change", true);
	}
	}

	return did_change;
	}

	/*!
	* \internal
	* \brief Do deferred action checks after allocation
	*
	* \param[in] data_set Working set for cluster
	*/
	static void
	check_params(pe_resource_t rsc, pe_node_t node, xmlNode *rsc_op,
	enum pe_check_parameters check, pe_working_set_t *data_set)
	{
	const char *reason = NULL;
	op_digest_cache_t *digest_data = NULL;

	switch (check) {
	case pe_check_active:
	if (check_action_definition(rsc, node, rsc_op, data_set)
	&& pe_get_failcount(node, rsc, NULL, pe_fc_effective, NULL,
	data_set)) {

	reason = "action definition changed";
	}
	break;

	case pe_check_last_failure:
	digest_data = rsc_action_digest_cmp(rsc, rsc_op, node, data_set);
	switch (digest_data->rc) {
	case RSC_DIGEST_UNKNOWN:
	crm_trace("Resource %s history entry %s on %s has no digest to compare",
	rsc->id, ID(rsc_op), node->details->id);
	break;
	case RSC_DIGEST_MATCH:
	break;
	default:
	reason = "resource parameters have changed";
	break;
	}
	break;
	}

	if (reason) {
	pe__clear_failcount(rsc, node, reason, data_set);
	}
	}

	static void
	check_actions_for(xmlNode * rsc_entry, pe_resource_t * rsc, pe_node_t * node, pe_working_set_t * data_set)
	{
	GList *gIter = NULL;
	int offset = -1;
	int stop_index = 0;
	int start_index = 0;

	const char *task = NULL;

	xmlNode *rsc_op = NULL;
	GList *op_list = NULL;
	GList *sorted_op_list = NULL;

	CRM_CHECK(node != NULL, return);

	if (pcmk_is_set(rsc->flags, pe_rsc_orphan)) {
	pe_resource_t *parent = uber_parent(rsc);
	if(parent == NULL
	\|\| pe_rsc_is_clone(parent) == FALSE
	\|\| pcmk_is_set(parent->flags, pe_rsc_unique)) {
	pe_rsc_trace(rsc, "Skipping param check for %s and deleting: orphan", rsc->id);
	DeleteRsc(rsc, node, FALSE, data_set);
	} else {
	pe_rsc_trace(rsc, "Skipping param check for %s (orphan clone)", rsc->id);
	}
	return;

	} else if (pe_find_node_id(rsc->running_on, node->details->id) == NULL) {
	if (check_rsc_parameters(rsc, node, rsc_entry, FALSE, data_set)) {
	DeleteRsc(rsc, node, FALSE, data_set);
	}
	pe_rsc_trace(rsc, "Skipping param check for %s: no longer active on %s",
	rsc->id, node->details->uname);
	return;
	}

	pe_rsc_trace(rsc, "Processing %s on %s", rsc->id, node->details->uname);

	if (check_rsc_parameters(rsc, node, rsc_entry, TRUE, data_set)) {
	DeleteRsc(rsc, node, FALSE, data_set);
	}

	for (rsc_op = pcmk__xe_first_child(rsc_entry); rsc_op != NULL;
	rsc_op = pcmk__xe_next(rsc_op)) {

	if (pcmk__str_eq((const char *)rsc_op->name, XML_LRM_TAG_RSC_OP, pcmk__str_none)) {
	op_list = g_list_prepend(op_list, rsc_op);
	}
	}

	sorted_op_list = g_list_sort(op_list, sort_op_by_callid);
	calculate_active_ops(sorted_op_list, &start_index, &stop_index);

	for (gIter = sorted_op_list; gIter != NULL; gIter = gIter->next) {
	xmlNode rsc_op = (xmlNode ) gIter->data;
	guint interval_ms = 0;

	offset++;

	if (start_index < stop_index) {
	/* stopped */
	continue;
	} else if (offset < start_index) {
	/* action occurred prior to 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
	CancelXmlOp(rsc, rsc_op, node, "maintenance mode", data_set);

	} else if ((interval_ms > 0) \|\| pcmk__strcase_any_of(task, RSC_STATUS, RSC_START,
	RSC_PROMOTE, RSC_MIGRATED, 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, data_set)) {
	/* We haven't allocated 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,
	data_set);

	} else if (check_action_definition(rsc, node, rsc_op, data_set)
	&& pe_get_failcount(node, rsc, NULL, pe_fc_effective, NULL,
	data_set)) {
	pe__clear_failcount(rsc, node, "action definition changed",
	data_set);
	}
	}
	}
	g_list_free(sorted_op_list);
	}

	static GList *
	find_rsc_list(GList result, pe_resource_t rsc, const char *id, gboolean renamed_clones,
	gboolean partial, pe_working_set_t * data_set)
	{
	GList *gIter = NULL;
	gboolean match = FALSE;

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

	if (rsc == NULL) {
	if (data_set == NULL) {
	return NULL;
	}
	for (gIter = data_set->resources; gIter != NULL; gIter = gIter->next) {
	pe_resource_t child = (pe_resource_t ) gIter->data;

	result = find_rsc_list(result, child, id, renamed_clones, partial,
	NULL);
	}
	return result;
	}

	if (partial) {
	if (strstr(rsc->id, id)) {
	match = TRUE;

	} else if (renamed_clones && rsc->clone_name && strstr(rsc->clone_name, id)) {
	match = TRUE;
	}

	} else {
	if (strcmp(rsc->id, id) == 0) {
	match = TRUE;

	} else if (renamed_clones && rsc->clone_name && strcmp(rsc->clone_name, id) == 0) {
	match = TRUE;
	}
	}

	if (match) {
	result = g_list_prepend(result, rsc);
	}

	if (rsc->children) {
	gIter = rsc->children;
	for (; gIter != NULL; gIter = gIter->next) {
	pe_resource_t child = (pe_resource_t ) gIter->data;

	result = find_rsc_list(result, child, id, renamed_clones, partial, NULL);
	}
	}

	return result;
	}

	static void
	check_actions(pe_working_set_t * data_set)
	{
	const char *id = NULL;
	pe_node_t *node = NULL;
	xmlNode *lrm_rscs = NULL;
	xmlNode *status = pcmk_find_cib_element(data_set->input,
	XML_CIB_TAG_STATUS);
	xmlNode *node_state = NULL;

	for (node_state = pcmk__xe_first_child(status); node_state != NULL;
	node_state = pcmk__xe_next(node_state)) {

	if (pcmk__str_eq((const char *)node_state->name, XML_CIB_TAG_STATE,
	pcmk__str_none)) {
	id = crm_element_value(node_state, XML_ATTR_ID);
	lrm_rscs = find_xml_node(node_state, XML_CIB_TAG_LRM, FALSE);
	lrm_rscs = find_xml_node(lrm_rscs, XML_LRM_TAG_RESOURCES, FALSE);

	node = pe_find_node_id(data_set->nodes, id);

	if (node == NULL) {
	continue;

	/* Still need to check actions for a maintenance node to cancel existing monitor operations */
	} else if (can_run_resources(node) == FALSE && node->details->maintenance == FALSE) {
	crm_trace("Skipping param check for %s: can't run resources",
	node->details->uname);
	continue;
	}

	crm_trace("Processing node %s", node->details->uname);
	if (node->details->online
	\|\| pcmk_is_set(data_set->flags, pe_flag_stonith_enabled)) {
	xmlNode *rsc_entry = NULL;

	for (rsc_entry = pcmk__xe_first_child(lrm_rscs);
	rsc_entry != NULL;
	rsc_entry = pcmk__xe_next(rsc_entry)) {

	if (pcmk__str_eq((const char *)rsc_entry->name, XML_LRM_TAG_RESOURCE, pcmk__str_none)) {

	if (xml_has_children(rsc_entry)) {
	GList *gIter = NULL;
	GList *result = NULL;
	const char *rsc_id = ID(rsc_entry);

	CRM_CHECK(rsc_id != NULL, return);

	result = find_rsc_list(NULL, NULL, rsc_id, TRUE, FALSE, data_set);
	for (gIter = result; gIter != NULL; gIter = gIter->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter->data;

	if (rsc->variant != pe_native) {
	continue;
	}
	check_actions_for(rsc_entry, rsc, node, data_set);
	}
	g_list_free(result);
	}
	}
	}
	}
	}
	}
	}

	static gboolean
	failcount_clear_action_exists(pe_node_t * node, pe_resource_t * rsc)
	{
	gboolean rc = FALSE;
	GList *list = pe__resource_actions(rsc, node, CRM_OP_CLEAR_FAILCOUNT, TRUE);

	if (list) {
	rc = TRUE;
	}
	g_list_free(list);
	return rc;
	}

	static void
	common_apply_stickiness(pe_resource_t * rsc, pe_node_t * node, pe_working_set_t * data_set)
	{
	if (rsc->children) {
	GList *gIter = rsc->children;

	for (; gIter != NULL; gIter = gIter->next) {
	pe_resource_t child_rsc = (pe_resource_t ) gIter->data;

	common_apply_stickiness(child_rsc, node, data_set);
	}
	return;
	}

	if (pcmk_is_set(rsc->flags, pe_rsc_managed)
	&& rsc->stickiness != 0 && pcmk__list_of_1(rsc->running_on)) {
	pe_node_t *current = pe_find_node_id(rsc->running_on, node->details->id);
	pe_node_t *match = pe_hash_table_lookup(rsc->allowed_nodes, node->details->id);

	if (current == NULL) {

	} else if ((match != NULL)
	\|\| pcmk_is_set(data_set->flags, pe_flag_symmetric_cluster)) {
	pe_resource_t *sticky_rsc = rsc;

	resource_location(sticky_rsc, node, rsc->stickiness, "stickiness", data_set);
	pe_rsc_debug(sticky_rsc, "Resource %s: preferring current location"
	" (node=%s, weight=%d)", sticky_rsc->id,
	node->details->uname, rsc->stickiness);
	} else {
	GHashTableIter iter;
	pe_node_t *nIter = NULL;

	pe_rsc_debug(rsc, "Ignoring stickiness for %s: the cluster is asymmetric"
	" and node %s is not explicitly allowed", rsc->id, node->details->uname);
	g_hash_table_iter_init(&iter, rsc->allowed_nodes);
	while (g_hash_table_iter_next(&iter, NULL, (void **)&nIter)) {
	crm_err("%s[%s] = %d", rsc->id, nIter->details->uname, nIter->weight);
	}
	}
	}

	/* Check the migration threshold only if a failcount clear action
	* has not already been placed for this resource on the node.
	* There is no sense in potentially forcing the resource from this
	* node if the failcount is being reset anyway.
	*
	* @TODO A clear_failcount operation can be scheduled in stage4() via
	* check_actions_for(), or in stage5() via check_params(). This runs in
	* stage2(), so it cannot detect those, meaning we might check the migration
	* threshold when we shouldn't -- worst case, we stop or move the resource,
	* then move it back next transition.
	*/
	if (failcount_clear_action_exists(node, rsc) == FALSE) {
	pe_resource_t *failed = NULL;

	if (pcmk__threshold_reached(rsc, node, data_set, &failed)) {
	resource_location(failed, node, -INFINITY, "__fail_limit__",
	data_set);
	}
	}
	}

	void
	complex_set_cmds(pe_resource_t * rsc)
	{
	GList *gIter = rsc->children;

	rsc->cmds = &resource_class_alloc_functions[rsc->variant];

	for (; gIter != NULL; gIter = gIter->next) {
	pe_resource_t child_rsc = (pe_resource_t ) gIter->data;

	complex_set_cmds(child_rsc);
	}
	}

	void
	set_alloc_actions(pe_working_set_t * data_set)
	{

	GList *gIter = data_set->resources;

	for (; gIter != NULL; gIter = gIter->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter->data;

	complex_set_cmds(rsc);
	}
	}

	static void
	calculate_system_health(gpointer gKey, gpointer gValue, gpointer user_data)
	{
	const char key = (const char )gKey;
	const char value = (const char )gValue;
	int system_health = (int )user_data;

	if (!gKey \|\| !gValue \|\| !user_data) {
	return;
	}

	if (pcmk__starts_with(key, "#health")) {
	int score;

	/* Convert the value into an integer */
	score = char2score(value);

	/* Add it to the running total */
	system_health = pe__add_scores(score, system_health);
	}
	}

	static gboolean
	apply_system_health(pe_working_set_t * data_set)
	{
	GList *gIter = NULL;
	const char *health_strategy = pe_pref(data_set->config_hash, "node-health-strategy");
	int base_health = 0;

	if (pcmk__str_eq(health_strategy, "none", pcmk__str_null_matches \| pcmk__str_casei)) {
	/* Prevent any accidental health -> score translation */
	pcmk__score_red = 0;
	pcmk__score_yellow = 0;
	pcmk__score_green = 0;
	return TRUE;

	} else if (pcmk__str_eq(health_strategy, "migrate-on-red", pcmk__str_casei)) {

	/* Resources on nodes which have health values of red are
	* weighted away from that node.
	*/
	pcmk__score_red = -INFINITY;
	pcmk__score_yellow = 0;
	pcmk__score_green = 0;

	} else if (pcmk__str_eq(health_strategy, "only-green", pcmk__str_casei)) {

	/* Resources on nodes which have health values of red or yellow
	* are forced away from that node.
	*/
	pcmk__score_red = -INFINITY;
	pcmk__score_yellow = -INFINITY;
	pcmk__score_green = 0;

	} else if (pcmk__str_eq(health_strategy, "progressive", pcmk__str_casei)) {
	/* Same as the above, but use the r/y/g scores provided by the user
	* Defaults are provided by the pe_prefs table
	* Also, custom health "base score" can be used
	*/
	base_health = char2score(pe_pref(data_set->config_hash,
	"node-health-base"));

	} else if (pcmk__str_eq(health_strategy, "custom", pcmk__str_casei)) {

	/* Requires the admin to configure the rsc_location constaints for
	* processing the stored health scores
	*/
	/* TODO: Check for the existence of appropriate node health constraints */
	return TRUE;

	} else {
	crm_err("Unknown node health strategy: %s", health_strategy);
	return FALSE;
	}

	crm_info("Applying automated node health strategy: %s", health_strategy);

	for (gIter = data_set->nodes; gIter != NULL; gIter = gIter->next) {
	int system_health = base_health;
	pe_node_t node = (pe_node_t ) gIter->data;

	/* Search through the node hash table for system health entries. */
	g_hash_table_foreach(node->details->attrs, calculate_system_health, &system_health);

	crm_info(" Node %s has an combined system health of %d",
	node->details->uname, system_health);

	/* If the health is non-zero, then create a new location constraint so
	* that the weight will be added later on.
	*/
	if (system_health != 0) {

	GList *gIter2 = data_set->resources;

	for (; gIter2 != NULL; gIter2 = gIter2->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter2->data;

	pcmk__new_location(health_strategy, rsc, system_health, NULL,
	node, data_set);
	}
	}
	}

	return TRUE;
	}

	gboolean
	stage0(pe_working_set_t * data_set)
	{
	if (data_set->input == NULL) {
	return FALSE;
	}

	if (!pcmk_is_set(data_set->flags, pe_flag_have_status)) {
	crm_trace("Calculating status");
	cluster_status(data_set);
	}

	set_alloc_actions(data_set);
	apply_system_health(data_set);
	pcmk__unpack_constraints(data_set);

	return TRUE;
	}

	/*
	* Check nodes for resources started outside of the LRM
	*/
	gboolean
	probe_resources(pe_working_set_t * data_set)
	{
	pe_action_t *probe_node_complete = NULL;

	for (GList *gIter = data_set->nodes; gIter != NULL; gIter = gIter->next) {
	pe_node_t node = (pe_node_t ) gIter->data;
	const char *probed = pe_node_attribute_raw(node, CRM_OP_PROBED);

	if (node->details->online == FALSE) {

	if (pcmk__is_failed_remote_node(node)) {
	pe_fence_node(data_set, node, "the connection is unrecoverable", FALSE);
	}
	continue;

	} else if (node->details->unclean) {
	continue;

	} else if (node->details->rsc_discovery_enabled == FALSE) {
	/* resource discovery is disabled for this node */
	continue;
	}

	if (probed != NULL && crm_is_true(probed) == FALSE) {
	pe_action_t *probe_op = custom_action(NULL, crm_strdup_printf("%s-%s", CRM_OP_REPROBE, node->details->uname),
	CRM_OP_REPROBE, node, FALSE, TRUE, data_set);

	add_hash_param(probe_op->meta, XML_ATTR_TE_NOWAIT, XML_BOOLEAN_TRUE);
	continue;
	}

	for (GList *gIter2 = data_set->resources; gIter2 != NULL; gIter2 = gIter2->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter2->data;

	rsc->cmds->create_probe(rsc, node, probe_node_complete, FALSE, data_set);
	}
	}
	return TRUE;
	}

	static void
	rsc_discover_filter(pe_resource_t rsc, pe_node_t node)
	{
	pe_resource_t *top = uber_parent(rsc);
	pe_node_t *match;

	if (rsc->exclusive_discover == FALSE && top->exclusive_discover == FALSE) {
	return;
	}

	g_list_foreach(rsc->children, (GFunc) rsc_discover_filter, node);

	match = g_hash_table_lookup(rsc->allowed_nodes, node->details->id);
	if (match && match->rsc_discover_mode != pe_discover_exclusive) {
	match->weight = -INFINITY;
	}
	}

	static time_t
	shutdown_time(pe_node_t node, pe_working_set_t data_set)
	{
	const char *shutdown = pe_node_attribute_raw(node, XML_CIB_ATTR_SHUTDOWN);
	time_t result = 0;

	if (shutdown) {
	long long result_ll;

	if (pcmk__scan_ll(shutdown, &result_ll, 0LL) == pcmk_rc_ok) {
	result = (time_t) result_ll;
	}
	}
	return result? result : get_effective_time(data_set);
	}

	static void
	apply_shutdown_lock(pe_resource_t rsc, pe_working_set_t data_set)
	{
	const char *class;

	// Only primitives and (uncloned) groups may be locked
	if (rsc->variant == pe_group) {
	g_list_foreach(rsc->children, (GFunc) apply_shutdown_lock, data_set);
	} else if (rsc->variant != pe_native) {
	return;
	}

	// Fence devices and remote connections can't be locked
	class = crm_element_value(rsc->xml, XML_AGENT_ATTR_CLASS);
	if (pcmk__str_eq(class, PCMK_RESOURCE_CLASS_STONITH, pcmk__str_null_matches)
	\|\| pe__resource_is_remote_conn(rsc, data_set)) {
	return;
	}

	if (rsc->lock_node != NULL) {
	// The lock was obtained from resource history

	if (rsc->running_on != NULL) {
	/* The resource was started elsewhere even though it is now
	* considered locked. This shouldn't be possible, but as a
	* failsafe, we don't want to disturb the resource now.
	*/
	pe_rsc_info(rsc,
	"Cancelling shutdown lock because %s is already active",
	rsc->id);
	pe__clear_resource_history(rsc, rsc->lock_node, data_set);
	rsc->lock_node = NULL;
	rsc->lock_time = 0;
	}

	// Only a resource active on exactly one node can be locked
	} else if (pcmk__list_of_1(rsc->running_on)) {
	pe_node_t *node = rsc->running_on->data;

	if (node->details->shutdown) {
	if (node->details->unclean) {
	pe_rsc_debug(rsc, "Not locking %s to unclean %s for shutdown",
	rsc->id, node->details->uname);
	} else {
	rsc->lock_node = node;
	rsc->lock_time = shutdown_time(node, data_set);
	}
	}
	}

	if (rsc->lock_node == NULL) {
	// No lock needed
	return;
	}

	if (data_set->shutdown_lock > 0) {
	time_t lock_expiration = rsc->lock_time + data_set->shutdown_lock;

	pe_rsc_info(rsc, "Locking %s to %s due to shutdown (expires @%lld)",
	rsc->id, rsc->lock_node->details->uname,
	(long long) lock_expiration);
	pe__update_recheck_time(++lock_expiration, data_set);
	} else {
	pe_rsc_info(rsc, "Locking %s to %s due to shutdown",
	rsc->id, rsc->lock_node->details->uname);
	}

	// If resource is locked to one node, ban it from all other nodes
	for (GList *item = data_set->nodes; item != NULL; item = item->next) {
	pe_node_t *node = item->data;

	if (strcmp(node->details->uname, rsc->lock_node->details->uname)) {
	resource_location(rsc, node, -CRM_SCORE_INFINITY,
	XML_CONFIG_ATTR_SHUTDOWN_LOCK, data_set);
	}
	}
	}

	/*
	* \internal
	* \brief Stage 2 of cluster status: apply node-specific criteria
	*
	* Count known nodes, and apply location constraints, stickiness, and exclusive
	* resource discovery.
	*/
	gboolean
	stage2(pe_working_set_t * data_set)
	{
	GList *gIter = NULL;

	if (pcmk_is_set(data_set->flags, pe_flag_shutdown_lock)) {
	g_list_foreach(data_set->resources, (GFunc) apply_shutdown_lock, data_set);
	}

	if (!pcmk_is_set(data_set->flags, pe_flag_no_compat)) {
	// @COMPAT API backward compatibility
	for (gIter = data_set->nodes; gIter != NULL; gIter = gIter->next) {
	pe_node_t node = (pe_node_t ) gIter->data;

	if (node && (node->weight >= 0) && node->details->online
	&& (node->details->type != node_ping)) {
	data_set->max_valid_nodes++;
	}
	}
	}

	pcmk__apply_locations(data_set);

	gIter = data_set->nodes;
	for (; gIter != NULL; gIter = gIter->next) {
	GList *gIter2 = NULL;
	pe_node_t node = (pe_node_t ) gIter->data;

	gIter2 = data_set->resources;
	for (; gIter2 != NULL; gIter2 = gIter2->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter2->data;

	common_apply_stickiness(rsc, node, data_set);
	rsc_discover_filter(rsc, node);
	}
	}

	return TRUE;
	}

	/*
	* Check for orphaned or redefined actions
	*/
	gboolean
	stage4(pe_working_set_t * data_set)
	{
	check_actions(data_set);
	return TRUE;
	}

	static void *
	convert_const_pointer(const void *ptr)
	{
	/* Worst function ever */
	return (void *)ptr;
	}

	static gint
	sort_rsc_process_order(gconstpointer a, gconstpointer b, gpointer data)
	{
	int rc = 0;
	int r1_weight = -INFINITY;
	int r2_weight = -INFINITY;

	const char *reason = "existence";

	GList nodes = (GList ) data;
	const pe_resource_t *resource1 = a;
	const pe_resource_t *resource2 = b;

	pe_node_t *r1_node = NULL;
	pe_node_t *r2_node = NULL;
	GList *gIter = NULL;
	GHashTable *r1_nodes = NULL;
	GHashTable *r2_nodes = NULL;

	reason = "priority";
	r1_weight = resource1->priority;
	r2_weight = resource2->priority;

	if (r1_weight > r2_weight) {
	rc = -1;
	goto done;
	}

	if (r1_weight < r2_weight) {
	rc = 1;
	goto done;
	}

	reason = "no node list";
	if (nodes == NULL) {
	goto done;
	}

	r1_nodes = pcmk__native_merge_weights(convert_const_pointer(resource1),
	resource1->id, NULL, NULL, 1,
	pe_weights_forward \| pe_weights_init);
	pe__show_node_weights(true, NULL, resource1->id, r1_nodes,
	resource1->cluster);

	r2_nodes = pcmk__native_merge_weights(convert_const_pointer(resource2),
	resource2->id, NULL, NULL, 1,
	pe_weights_forward \| pe_weights_init);
	pe__show_node_weights(true, NULL, resource2->id, r2_nodes,
	resource2->cluster);

	/* Current location score */
	reason = "current location";
	r1_weight = -INFINITY;
	r2_weight = -INFINITY;

	if (resource1->running_on) {
	r1_node = pe__current_node(resource1);
	r1_node = g_hash_table_lookup(r1_nodes, r1_node->details->id);
	if (r1_node != NULL) {
	r1_weight = r1_node->weight;
	}
	}
	if (resource2->running_on) {
	r2_node = pe__current_node(resource2);
	r2_node = g_hash_table_lookup(r2_nodes, r2_node->details->id);
	if (r2_node != NULL) {
	r2_weight = r2_node->weight;
	}
	}

	if (r1_weight > r2_weight) {
	rc = -1;
	goto done;
	}

	if (r1_weight < r2_weight) {
	rc = 1;
	goto done;
	}

	reason = "score";
	for (gIter = nodes; gIter != NULL; gIter = gIter->next) {
	pe_node_t node = (pe_node_t ) gIter->data;

	r1_node = NULL;
	r2_node = NULL;

	r1_weight = -INFINITY;
	if (r1_nodes) {
	r1_node = g_hash_table_lookup(r1_nodes, node->details->id);
	}
	if (r1_node) {
	r1_weight = r1_node->weight;
	}

	r2_weight = -INFINITY;
	if (r2_nodes) {
	r2_node = g_hash_table_lookup(r2_nodes, node->details->id);
	}
	if (r2_node) {
	r2_weight = r2_node->weight;
	}

	if (r1_weight > r2_weight) {
	rc = -1;
	goto done;
	}

	if (r1_weight < r2_weight) {
	rc = 1;
	goto done;
	}
	}

	done:
	crm_trace("%s (%d) on %s %c %s (%d) on %s: %s",
	resource1->id, r1_weight, r1_node ? r1_node->details->id : "n/a",
	rc < 0 ? '>' : rc > 0 ? '<' : '=',
	resource2->id, r2_weight, r2_node ? r2_node->details->id : "n/a", reason);

	if (r1_nodes) {
	g_hash_table_destroy(r1_nodes);
	}
	if (r2_nodes) {
	g_hash_table_destroy(r2_nodes);
	}

	return rc;
	}

	static void
	allocate_resources(pe_working_set_t * data_set)
	{
	GList *gIter = NULL;

	if (pcmk_is_set(data_set->flags, pe_flag_have_remote_nodes)) {
	/* Allocate remote connection resources first (which will also allocate
	* any colocation dependencies). If the connection is migrating, always
	* prefer the partial migration target.
	*/
	for (gIter = data_set->resources; gIter != NULL; gIter = gIter->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter->data;
	if (rsc->is_remote_node == FALSE) {
	continue;
	}
	pe_rsc_trace(rsc, "Allocating remote connection resource '%s'",
	rsc->id);
	rsc->cmds->allocate(rsc, rsc->partial_migration_target, data_set);
	}
	}

	/* now do the rest of the resources */
	for (gIter = data_set->resources; gIter != NULL; gIter = gIter->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter->data;
	if (rsc->is_remote_node == TRUE) {
	continue;
	}
	pe_rsc_trace(rsc, "Allocating %s resource '%s'",
	crm_element_name(rsc->xml), rsc->id);
	rsc->cmds->allocate(rsc, NULL, data_set);
	}
	}

	// Clear fail counts for orphaned rsc on all online nodes
	static void
	cleanup_orphans(pe_resource_t * rsc, pe_working_set_t * data_set)
	{
	GList *gIter = NULL;

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

	if (node->details->online
	&& pe_get_failcount(node, rsc, NULL, pe_fc_effective, NULL,
	data_set)) {

	pe_action_t *clear_op = NULL;

	clear_op = pe__clear_failcount(rsc, node, "it is orphaned",
	data_set);

	/* We can't use order_action_then_stop() here because its
	* pe_order_preserve breaks things
	*/
	pcmk__new_ordering(clear_op->rsc, NULL, clear_op,
	rsc, stop_key(rsc), NULL,
	pe_order_optional, data_set);
	}
	}
	}

	gboolean
	stage5(pe_working_set_t * data_set)
	{
	pcmk__output_t *out = data_set->priv;
	GList *gIter = NULL;

	if (!pcmk__str_eq(data_set->placement_strategy, "default", pcmk__str_casei)) {
	GList *nodes = g_list_copy(data_set->nodes);

	nodes = sort_nodes_by_weight(nodes, NULL, data_set);
	data_set->resources =
	g_list_sort_with_data(data_set->resources, sort_rsc_process_order, nodes);

	g_list_free(nodes);
	}

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

	if (pcmk_is_set(data_set->flags, pe_flag_show_utilization)) {
	out->message(out, "node-capacity", node, "Original");
	}
	}

	crm_trace("Allocating services");
	/* Take (next) highest resource, assign it and create its actions */

	allocate_resources(data_set);

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

	if (pcmk_is_set(data_set->flags, pe_flag_show_utilization)) {
	out->message(out, "node-capacity", node, "Remaining");
	}
	}

	// Process deferred action checks
	pe__foreach_param_check(data_set, check_params);
	pe__free_param_checks(data_set);

	if (pcmk_is_set(data_set->flags, pe_flag_startup_probes)) {
	crm_trace("Calculating needed probes");
	/* This code probably needs optimization
	* ptest -x with 100 nodes, 100 clones and clone-max=100:

	With probes:

	ptest[14781]: 2010/09/27_17:56:46 notice: TRACE: do_calculations: pengine.c:258 Calculate cluster status
	ptest[14781]: 2010/09/27_17:56:46 notice: TRACE: do_calculations: pengine.c:278 Applying placement constraints
	ptest[14781]: 2010/09/27_17:56:47 notice: TRACE: do_calculations: pengine.c:285 Create internal constraints
	ptest[14781]: 2010/09/27_17:56:47 notice: TRACE: do_calculations: pengine.c:292 Check actions
	ptest[14781]: 2010/09/27_17:56:48 notice: TRACE: do_calculations: pengine.c:299 Allocate resources
	ptest[14781]: 2010/09/27_17:56:48 notice: TRACE: stage5: allocate.c:881 Allocating services
	ptest[14781]: 2010/09/27_17:56:49 notice: TRACE: stage5: allocate.c:894 Calculating needed probes
	ptest[14781]: 2010/09/27_17:56:51 notice: TRACE: stage5: allocate.c:899 Creating actions
	ptest[14781]: 2010/09/27_17:56:52 notice: TRACE: stage5: allocate.c:905 Creating done
	ptest[14781]: 2010/09/27_17:56:52 notice: TRACE: do_calculations: pengine.c:306 Processing fencing and shutdown cases
	ptest[14781]: 2010/09/27_17:56:52 notice: TRACE: do_calculations: pengine.c:313 Applying ordering constraints
	36s
	ptest[14781]: 2010/09/27_17:57:28 notice: TRACE: do_calculations: pengine.c:320 Create transition graph

	Without probes:

	ptest[14637]: 2010/09/27_17:56:21 notice: TRACE: do_calculations: pengine.c:258 Calculate cluster status
	ptest[14637]: 2010/09/27_17:56:22 notice: TRACE: do_calculations: pengine.c:278 Applying placement constraints
	ptest[14637]: 2010/09/27_17:56:22 notice: TRACE: do_calculations: pengine.c:285 Create internal constraints
	ptest[14637]: 2010/09/27_17:56:22 notice: TRACE: do_calculations: pengine.c:292 Check actions
	ptest[14637]: 2010/09/27_17:56:23 notice: TRACE: do_calculations: pengine.c:299 Allocate resources
	ptest[14637]: 2010/09/27_17:56:23 notice: TRACE: stage5: allocate.c:881 Allocating services
	ptest[14637]: 2010/09/27_17:56:24 notice: TRACE: stage5: allocate.c:899 Creating actions
	ptest[14637]: 2010/09/27_17:56:25 notice: TRACE: stage5: allocate.c:905 Creating done
	ptest[14637]: 2010/09/27_17:56:25 notice: TRACE: do_calculations: pengine.c:306 Processing fencing and shutdown cases
	ptest[14637]: 2010/09/27_17:56:25 notice: TRACE: do_calculations: pengine.c:313 Applying ordering constraints
	ptest[14637]: 2010/09/27_17:56:25 notice: TRACE: do_calculations: pengine.c:320 Create transition graph
	*/

	probe_resources(data_set);
	}

	crm_trace("Handle orphans");
	if (pcmk_is_set(data_set->flags, pe_flag_stop_rsc_orphans)) {
	for (gIter = data_set->resources; gIter != NULL; gIter = gIter->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter->data;

	/* There's no need to recurse into rsc->children because those
	* should just be unallocated clone instances.
	*/
	if (pcmk_is_set(rsc->flags, pe_rsc_orphan)) {
	cleanup_orphans(rsc, data_set);
	}
	}
	}

	crm_trace("Creating actions");

	for (gIter = data_set->resources; gIter != NULL; gIter = gIter->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter->data;

	rsc->cmds->create_actions(rsc, data_set);
	}

	crm_trace("Creating done");
	return TRUE;
	}

	static gboolean
	is_managed(const pe_resource_t * rsc)
	{
	GList *gIter = rsc->children;

	if (pcmk_is_set(rsc->flags, pe_rsc_managed)) {
	return TRUE;
	}

	for (; gIter != NULL; gIter = gIter->next) {
	pe_resource_t child_rsc = (pe_resource_t ) gIter->data;

	if (is_managed(child_rsc)) {
	return TRUE;
	}
	}

	return FALSE;
	}

	static gboolean
	any_managed_resources(pe_working_set_t * data_set)
	{

	GList *gIter = data_set->resources;

	for (; gIter != NULL; gIter = gIter->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter->data;

	if (is_managed(rsc)) {
	return TRUE;
	}
	}
	return FALSE;
	}

	/*
	* Create dependencies for stonith and shutdown operations
	*/
	gboolean
	stage6(pe_working_set_t * data_set)
	{
	pe_action_t *dc_down = NULL;
	pe_action_t *stonith_op = NULL;
	gboolean integrity_lost = FALSE;
	gboolean need_stonith = TRUE;
	GList *gIter;
	GList *stonith_ops = NULL;
	GList *shutdown_ops = NULL;

	/* Remote ordering constraints need to happen prior to calculating fencing
	* because it is one more place we can mark nodes as needing fencing.
	*/
	pcmk__order_remote_connection_actions(data_set);

	crm_trace("Processing fencing and shutdown cases");
	if (any_managed_resources(data_set) == FALSE) {
	crm_notice("Delaying fencing operations until there are resources to manage");
	need_stonith = FALSE;
	}

	/* Check each node for stonith/shutdown */
	for (gIter = data_set->nodes; gIter != NULL; gIter = gIter->next) {
	pe_node_t node = (pe_node_t ) gIter->data;

	/* Guest nodes are "fenced" by recovering their container resource,
	* so handle them separately.
	*/
	if (pe__is_guest_node(node)) {
	if (node->details->remote_requires_reset && need_stonith
	&& pe_can_fence(data_set, node)) {
	pcmk__fence_guest(node, data_set);
	}
	continue;
	}

	stonith_op = NULL;

	if (node->details->unclean
	&& need_stonith && pe_can_fence(data_set, node)) {

	stonith_op = pe_fence_op(node, NULL, FALSE, "node is unclean", FALSE, data_set);
	pe_warn("Scheduling Node %s for STONITH", node->details->uname);

	pcmk__order_vs_fence(stonith_op, data_set);

	if (node->details->is_dc) {
	// Remember if the DC is being fenced
	dc_down = stonith_op;

	} else {

	if (!pcmk_is_set(data_set->flags, pe_flag_concurrent_fencing)
	&& (stonith_ops != NULL)) {
	/* Concurrent fencing is disabled, so order each non-DC
	* fencing in a chain. If there is any DC fencing or
	* shutdown, it will be ordered after the last action in the
	* chain later.
	*/
	order_actions((pe_action_t *) stonith_ops->data,
	stonith_op, pe_order_optional);
	}

	// Remember all non-DC fencing actions in a separate list
	stonith_ops = g_list_prepend(stonith_ops, stonith_op);
	}

	} else if (node->details->online && node->details->shutdown &&
	/* TODO define what a shutdown op means for a remote node.
	* For now we do not send shutdown operations for remote nodes, but
	* if we can come up with a good use for this in the future, we will. */
	pe__is_guest_or_remote_node(node) == FALSE) {

	pe_action_t *down_op = pcmk__new_shutdown_action(node, data_set);

	if (node->details->is_dc) {
	// Remember if the DC is being shut down
	dc_down = down_op;
	} else {
	// Remember non-DC shutdowns for later ordering
	shutdown_ops = g_list_prepend(shutdown_ops, down_op);
	}
	}

	if (node->details->unclean && stonith_op == NULL) {
	integrity_lost = TRUE;
	pe_warn("Node %s is unclean!", node->details->uname);
	}
	}

	if (integrity_lost) {
	if (!pcmk_is_set(data_set->flags, pe_flag_stonith_enabled)) {
	pe_warn("YOUR RESOURCES ARE NOW LIKELY COMPROMISED");
	pe_err("ENABLE STONITH TO KEEP YOUR RESOURCES SAFE");

	} else if (!pcmk_is_set(data_set->flags, pe_flag_have_quorum)) {
	crm_notice("Cannot fence unclean nodes until quorum is"
	" attained (or no-quorum-policy is set to ignore)");
	}
	}

	if (dc_down != NULL) {
	/* Order any non-DC shutdowns before any DC shutdown, to avoid repeated
	* DC elections. However, we don't want to order non-DC shutdowns before
	* a DC fencing, because even though we don't want a node that's
	* shutting down to become DC, the DC fencing could be ordered before a
	* clone stop that's also ordered before the shutdowns, thus leading to
	* a graph loop.
	*/
	if (pcmk__str_eq(dc_down->task, CRM_OP_SHUTDOWN, pcmk__str_casei)) {
	for (gIter = shutdown_ops; gIter != NULL; gIter = gIter->next) {
	pe_action_t node_stop = (pe_action_t ) gIter->data;

	crm_debug("Ordering shutdown on %s before %s on DC %s",
	node_stop->node->details->uname,
	dc_down->task, dc_down->node->details->uname);

	order_actions(node_stop, dc_down, pe_order_optional);
	}
	}

	// Order any non-DC fencing before any DC fencing or shutdown

	if (pcmk_is_set(data_set->flags, pe_flag_concurrent_fencing)) {
	/* With concurrent fencing, order each non-DC fencing action
	* separately before any DC fencing or shutdown.
	*/
	for (gIter = stonith_ops; gIter != NULL; gIter = gIter->next) {
	order_actions((pe_action_t *) gIter->data, dc_down,
	pe_order_optional);
	}
	} else if (stonith_ops) {
	/* Without concurrent fencing, the non-DC fencing actions are
	* already ordered relative to each other, so we just need to order
	* the DC fencing after the last action in the chain (which is the
	* first item in the list).
	*/
	order_actions((pe_action_t *) stonith_ops->data, dc_down,
	pe_order_optional);
	}
	}
	g_list_free(stonith_ops);
	g_list_free(shutdown_ops);
	return TRUE;
	}

	static gboolean
	order_first_probe_unneeded(pe_action_t * probe, pe_action_t * rh_action)
	{
	/* No need to probe the resource on the node that is being
	* unfenced. Otherwise it might introduce transition loop
	* since probe will be performed after the node is
	* unfenced.
	*/
	if (pcmk__str_eq(rh_action->task, CRM_OP_FENCE, pcmk__str_casei)
	&& probe->node && rh_action->node
	&& probe->node->details == rh_action->node->details) {
	const char *op = g_hash_table_lookup(rh_action->meta, "stonith_action");

	if (pcmk__str_eq(op, "on", pcmk__str_casei)) {
	return TRUE;
	}
	}

	// Shutdown waits for probe to complete only if it's on the same node
	if ((pcmk__str_eq(rh_action->task, CRM_OP_SHUTDOWN, pcmk__str_casei))
	&& probe->node && rh_action->node
	&& probe->node->details != rh_action->node->details) {
	return TRUE;
	}
	return FALSE;
	}

	static void
	order_first_probes_imply_stops(pe_working_set_t * data_set)
	{
	GList *gIter = NULL;

	for (gIter = data_set->ordering_constraints; gIter != NULL; gIter = gIter->next) {
	pe__ordering_t *order = gIter->data;
	enum pe_ordering order_type = pe_order_optional;

	pe_resource_t *lh_rsc = order->lh_rsc;
	pe_resource_t *rh_rsc = order->rh_rsc;
	pe_action_t *lh_action = order->lh_action;
	pe_action_t *rh_action = order->rh_action;
	const char *lh_action_task = order->lh_action_task;
	const char *rh_action_task = order->rh_action_task;

	GList *probes = NULL;
	GList *rh_actions = NULL;

	GList *pIter = NULL;

	if (lh_rsc == NULL) {
	continue;

	} else if (rh_rsc && lh_rsc == rh_rsc) {
	continue;
	}

	if (lh_action == NULL && lh_action_task == NULL) {
	continue;
	}

	if (rh_action == NULL && rh_action_task == NULL) {
	continue;
	}

	/* Technically probe is expected to return "not running", which could be
	* the alternative of stop action if the status of the resource is
	* unknown yet.
	*/
	if (lh_action && !pcmk__str_eq(lh_action->task, RSC_STOP, pcmk__str_casei)) {
	continue;

	} else if (lh_action == NULL
	&& lh_action_task
	&& !pcmk__ends_with(lh_action_task, "_" RSC_STOP "_0")) {
	continue;
	}

	/* Do not probe the resource inside of a stopping container. Otherwise
	* it might introduce transition loop since probe will be performed
	* after the container starts again.
	*/
	if (rh_rsc && lh_rsc->container == rh_rsc) {
	if (rh_action && pcmk__str_eq(rh_action->task, RSC_STOP, pcmk__str_casei)) {
	continue;

	} else if (rh_action == NULL && rh_action_task
	&& pcmk__ends_with(rh_action_task,"_" RSC_STOP "_0")) {
	continue;
	}
	}

	if (order->type == pe_order_none) {
	continue;
	}

	// Preserve the order options for future filtering
	if (pcmk_is_set(order->type, pe_order_apply_first_non_migratable)) {
	pe__set_order_flags(order_type,
	pe_order_apply_first_non_migratable);
	}

	if (pcmk_is_set(order->type, pe_order_same_node)) {
	pe__set_order_flags(order_type, pe_order_same_node);
	}

	// Keep the order types for future filtering
	if (order->type == pe_order_anti_colocation
	\|\| order->type == pe_order_load) {
	order_type = order->type;
	}

	probes = pe__resource_actions(lh_rsc, NULL, RSC_STATUS, FALSE);
	if (probes == NULL) {
	continue;
	}

	if (rh_action) {
	rh_actions = g_list_prepend(rh_actions, rh_action);

	} else if (rh_rsc && rh_action_task) {
	rh_actions = find_actions(rh_rsc->actions, rh_action_task, NULL);
	}

	if (rh_actions == NULL) {
	g_list_free(probes);
	continue;
	}

	crm_trace("Processing for LH probe based on ordering constraint %s -> %s"
	" (id=%d, type=%.6x)",
	lh_action ? lh_action->uuid : lh_action_task,
	rh_action ? rh_action->uuid : rh_action_task,
	order->id, order->type);

	for (pIter = probes; pIter != NULL; pIter = pIter->next) {
	pe_action_t probe = (pe_action_t ) pIter->data;
	GList *rIter = NULL;

	for (rIter = rh_actions; rIter != NULL; rIter = rIter->next) {
	pe_action_t rh_action_iter = (pe_action_t ) rIter->data;

	if (order_first_probe_unneeded(probe, rh_action_iter)) {
	continue;
	}
	order_actions(probe, rh_action_iter, order_type);
	}
	}

	g_list_free(rh_actions);
	g_list_free(probes);
	}
	}

	static void
	order_first_probe_then_restart_repromote(pe_action_t * probe,
	pe_action_t * after,
	pe_working_set_t * data_set)
	{
	GList *gIter = NULL;
	bool interleave = FALSE;
	pe_resource_t *compatible_rsc = NULL;

	if (probe == NULL
	\|\| probe->rsc == NULL
	\|\| probe->rsc->variant != pe_native) {
	return;
	}

	if (after == NULL
	// Avoid running into any possible loop
	\|\| pcmk_is_set(after->flags, pe_action_tracking)) {
	return;
	}

	if (!pcmk__str_eq(probe->task, RSC_STATUS, pcmk__str_casei)) {
	return;
	}

	pe__set_action_flags(after, pe_action_tracking);

	crm_trace("Processing based on %s %s -> %s %s",
	probe->uuid,
	probe->node ? probe->node->details->uname: "",
	after->uuid,
	after->node ? after->node->details->uname : "");

	if (after->rsc
	/* Better not build a dependency directly with a clone/group.
	* We are going to proceed through the ordering chain and build
	* dependencies with its children.
	*/
	&& after->rsc->variant == pe_native
	&& probe->rsc != after->rsc) {

	GList *then_actions = NULL;
	enum pe_ordering probe_order_type = pe_order_optional;

	if (pcmk__str_eq(after->task, RSC_START, pcmk__str_casei)) {
	then_actions = pe__resource_actions(after->rsc, NULL, RSC_STOP, FALSE);

	} else if (pcmk__str_eq(after->task, RSC_PROMOTE, pcmk__str_casei)) {
	then_actions = pe__resource_actions(after->rsc, NULL, RSC_DEMOTE, FALSE);
	}

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

	// Skip any pseudo action which for example is implied by fencing
	if (pcmk_is_set(then->flags, pe_action_pseudo)) {
	continue;
	}

	order_actions(probe, then, probe_order_type);
	}
	g_list_free(then_actions);
	}

	if (after->rsc
	&& after->rsc->variant > pe_group) {
	const char *interleave_s = g_hash_table_lookup(after->rsc->meta,
	XML_RSC_ATTR_INTERLEAVE);

	interleave = crm_is_true(interleave_s);

	if (interleave) {
	/* For an interleaved clone, we should build a dependency only
	* with the relevant clone child.
	*/
	compatible_rsc = find_compatible_child(probe->rsc,
	after->rsc,
	RSC_ROLE_UNKNOWN,
	FALSE, data_set);
	}
	}

	for (gIter = after->actions_after; gIter != NULL; gIter = gIter->next) {
	pe_action_wrapper_t after_wrapper = (pe_action_wrapper_t ) gIter->data;
	/* pe_order_implies_then is the reason why a required A.start
	* implies/enforces B.start to be required too, which is the cause of
	* B.restart/re-promote.
	*
	* Not sure about pe_order_implies_then_on_node though. It's now only
	* used for unfencing case, which tends to introduce transition
	* loops...
	*/

	if (!pcmk_is_set(after_wrapper->type, pe_order_implies_then)) {
	/* The order type between a group/clone and its child such as
	* B.start-> B_child.start is:
	* pe_order_implies_first_printed \| pe_order_runnable_left
	*
	* Proceed through the ordering chain and build dependencies with
	* its children.
	*/
	if (after->rsc == NULL
	\|\| after->rsc->variant < pe_group
	\|\| probe->rsc->parent == after->rsc
	\|\| after_wrapper->action->rsc == NULL
	\|\| after_wrapper->action->rsc->variant > pe_group
	\|\| after->rsc != after_wrapper->action->rsc->parent) {
	continue;
	}

	/* Proceed to the children of a group or a non-interleaved clone.
	* For an interleaved clone, proceed only to the relevant child.
	*/
	if (after->rsc->variant > pe_group
	&& interleave == TRUE
	&& (compatible_rsc == NULL
	\|\| compatible_rsc != after_wrapper->action->rsc)) {
	continue;
	}
	}

	crm_trace("Proceeding through %s %s -> %s %s (type=0x%.6x)",
	after->uuid,
	after->node ? after->node->details->uname: "",
	after_wrapper->action->uuid,
	after_wrapper->action->node ? after_wrapper->action->node->details->uname : "",
	after_wrapper->type);

	order_first_probe_then_restart_repromote(probe, after_wrapper->action, data_set);
	}
	}

	static void clear_actions_tracking_flag(pe_working_set_t * data_set)
	{
	GList *gIter = NULL;

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

	if (pcmk_is_set(action->flags, pe_action_tracking)) {
	pe__clear_action_flags(action, pe_action_tracking);
	}
	}
	}

	static void
	order_first_rsc_probes(pe_resource_t * rsc, pe_working_set_t * data_set)
	{
	GList *gIter = NULL;
	GList *probes = NULL;

	g_list_foreach(rsc->children, (GFunc) order_first_rsc_probes, data_set);

	if (rsc->variant != pe_native) {
	return;
	}

	probes = pe__resource_actions(rsc, NULL, RSC_STATUS, FALSE);

	for (gIter = probes; gIter != NULL; gIter= gIter->next) {
	pe_action_t probe = (pe_action_t ) gIter->data;
	GList *aIter = NULL;

	for (aIter = probe->actions_after; aIter != NULL; aIter = aIter->next) {
	pe_action_wrapper_t after_wrapper = (pe_action_wrapper_t ) aIter->data;

	order_first_probe_then_restart_repromote(probe, after_wrapper->action, data_set);
	clear_actions_tracking_flag(data_set);
	}
	}

	g_list_free(probes);
	}

	static void
	order_first_probes(pe_working_set_t * data_set)
	{
	GList *gIter = NULL;

	for (gIter = data_set->resources; gIter != NULL; gIter = gIter->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter->data;

	order_first_rsc_probes(rsc, data_set);
	}

	order_first_probes_imply_stops(data_set);
	}

	static void
	order_then_probes(pe_working_set_t * data_set)
	{
	#if 0
	GList *gIter = NULL;

	for (gIter = data_set->resources; gIter != NULL; gIter = gIter->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter->data;

	/* Given "A then B", we would prefer to wait for A to be
	* started before probing B.
	*
	* If A was a filesystem on which the binaries and data for B
	* lived, it would have been useful if the author of B's agent
	* could assume that A is running before B.monitor will be
	* called.
	*
	* However we can't _only_ probe once A is running, otherwise
	* we'd not detect the state of B if A could not be started
	* for some reason.
	*
	* In practice however, we cannot even do an opportunistic
	* version of this because B may be moving:
	*
	* B.probe -> B.start
	* B.probe -> B.stop
	* B.stop -> B.start
	* A.stop -> A.start
	* A.start -> B.probe
	*
	* So far so good, but if we add the result of this code:
	*
	* B.stop -> A.stop
	*
	* Then we get a loop:
	*
	* B.probe -> B.stop -> A.stop -> A.start -> B.probe
	*
	* We could kill the 'B.probe -> B.stop' dependency, but that
	* could mean stopping B "too" soon, because B.start must wait
	* for the probes to complete.
	*
	* Another option is to allow it only if A is a non-unique
	* clone with clone-max == node-max (since we'll never be
	* moving it). However, we could still be stopping one
	* instance at the same time as starting another.

	* The complexity of checking for allowed conditions combined
	* with the ever narrowing usecase suggests that this code
	* should remain disabled until someone gets smarter.
	*/
	pe_action_t *start = NULL;
	GList *actions = NULL;
	GList *probes = NULL;

	actions = pe__resource_actions(rsc, NULL, RSC_START, FALSE);

	if (actions) {
	start = actions->data;
	g_list_free(actions);
	}

	if(start == NULL) {
	crm_err("No start action for %s", rsc->id);
	continue;
	}

	probes = pe__resource_actions(rsc, NULL, RSC_STATUS, FALSE);

	for (actions = start->actions_before; actions != NULL; actions = actions->next) {
	pe_action_wrapper_t before = (pe_action_wrapper_t ) actions->data;

	GList *pIter = NULL;
	pe_action_t *first = before->action;
	pe_resource_t *first_rsc = first->rsc;

	if(first->required_runnable_before) {
	GList *clone_actions = NULL;
	for (clone_actions = first->actions_before; clone_actions != NULL; clone_actions = clone_actions->next) {
	before = (pe_action_wrapper_t *) clone_actions->data;

	crm_trace("Testing %s -> %s (%p) for %s", first->uuid, before->action->uuid, before->action->rsc, start->uuid);

	CRM_ASSERT(before->action->rsc);
	first_rsc = before->action->rsc;
	break;
	}

	} else if(!pcmk__str_eq(first->task, RSC_START, pcmk__str_casei)) {
	crm_trace("Not a start op %s for %s", first->uuid, start->uuid);
	}

	if(first_rsc == NULL) {
	continue;

	} else if(uber_parent(first_rsc) == uber_parent(start->rsc)) {
	crm_trace("Same parent %s for %s", first_rsc->id, start->uuid);
	continue;

	} else if(FALSE && pe_rsc_is_clone(uber_parent(first_rsc)) == FALSE) {
	crm_trace("Not a clone %s for %s", first_rsc->id, start->uuid);
	continue;
	}

	crm_err("Applying %s before %s %d", first->uuid, start->uuid, uber_parent(first_rsc)->variant);

	for (pIter = probes; pIter != NULL; pIter = pIter->next) {
	pe_action_t probe = (pe_action_t ) pIter->data;

	crm_err("Ordering %s before %s", first->uuid, probe->uuid);
	order_actions(first, probe, pe_order_optional);
	}
	}
	}
	#endif
	}

	void
	pcmk__order_probes(pe_working_set_t *data_set)
	{
	order_first_probes(data_set);
	order_then_probes(data_set);
	}

	static int transition_id = -1;

	/*!
	* \internal
	* \brief Log a message after calculating a transition
	*
	* \param[in] filename Where transition input is stored
	*/
	void
	pcmk__log_transition_summary(const char *filename)
	{
	if (was_processing_error) {
	crm_err("Calculated transition %d (with errors)%s%s",
	transition_id,
	(filename == NULL)? "" : ", saving inputs in ",
	(filename == NULL)? "" : filename);

	} else if (was_processing_warning) {
	crm_warn("Calculated transition %d (with warnings)%s%s",
	transition_id,
	(filename == NULL)? "" : ", saving inputs in ",
	(filename == NULL)? "" : filename);

	} else {
	crm_notice("Calculated transition %d%s%s",
	transition_id,
	(filename == NULL)? "" : ", saving inputs in ",
	(filename == NULL)? "" : filename);
	}
	if (crm_config_error) {
	crm_notice("Configuration errors found during scheduler processing,"
	" please run \"crm_verify -L\" to identify issues");
	}
	}

	/*
	* Create a dependency graph to send to the transitioner (via the controller)
	*/
	gboolean
	stage8(pe_working_set_t * data_set)
	{
	GList *gIter = NULL;
	const char *value = NULL;
	long long limit = 0LL;

	transition_id++;
	crm_trace("Creating transition graph %d.", transition_id);

	data_set->graph = create_xml_node(NULL, XML_TAG_GRAPH);

	value = pe_pref(data_set->config_hash, "cluster-delay");
	crm_xml_add(data_set->graph, "cluster-delay", value);

	value = pe_pref(data_set->config_hash, "stonith-timeout");
	crm_xml_add(data_set->graph, "stonith-timeout", value);

	crm_xml_add(data_set->graph, "failed-stop-offset", "INFINITY");

	if (pcmk_is_set(data_set->flags, pe_flag_start_failure_fatal)) {
	crm_xml_add(data_set->graph, "failed-start-offset", "INFINITY");
	} else {
	crm_xml_add(data_set->graph, "failed-start-offset", "1");
	}

	value = pe_pref(data_set->config_hash, "batch-limit");
	crm_xml_add(data_set->graph, "batch-limit", value);

	crm_xml_add_int(data_set->graph, "transition_id", transition_id);

	value = pe_pref(data_set->config_hash, "migration-limit");
	if ((pcmk__scan_ll(value, &limit, 0LL) == pcmk_rc_ok) && (limit > 0)) {
	crm_xml_add(data_set->graph, "migration-limit", value);
	}

	if (data_set->recheck_by > 0) {
	char *recheck_epoch = NULL;

	recheck_epoch = crm_strdup_printf("%llu",
	(long long) data_set->recheck_by);
	crm_xml_add(data_set->graph, "recheck-by", recheck_epoch);
	free(recheck_epoch);
	}

	/* The following code will de-duplicate action inputs, so nothing past this
	* should rely on the action input type flags retaining their original
	* values.
	*/

	gIter = data_set->resources;
	for (; gIter != NULL; gIter = gIter->next) {
	pe_resource_t rsc = (pe_resource_t ) gIter->data;

	pe_rsc_trace(rsc, "processing actions for rsc=%s", rsc->id);
	rsc->cmds->expand(rsc, data_set);
	}

	crm_log_xml_trace(data_set->graph, "created resource-driven action list");

	/* pseudo action to distribute list of nodes with maintenance state update */
	add_maintenance_update(data_set);

	/* catch any non-resource specific actions */
	crm_trace("processing non-resource actions");

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

	if (action->rsc
	&& action->node
	&& action->node->details->shutdown
	&& !pcmk_is_set(action->rsc->flags, pe_rsc_maintenance)
	&& !pcmk_any_flags_set(action->flags,
	pe_action_optional\|pe_action_runnable)
	&& pcmk__str_eq(action->task, RSC_STOP, pcmk__str_none)
	) {
	/* Eventually we should just ignore the 'fence' case
	* But for now it's the best way to detect (in CTS) when
	* CIB resource updates are being lost
	*/
	if (pcmk_is_set(data_set->flags, pe_flag_have_quorum)
	\|\| data_set->no_quorum_policy == no_quorum_ignore) {
	crm_crit("Cannot %s node '%s' because of %s:%s%s (%s)",
	action->node->details->unclean ? "fence" : "shut down",
	action->node->details->uname, action->rsc->id,
	pcmk_is_set(action->rsc->flags, pe_rsc_managed)? " blocked" : " unmanaged",
	pcmk_is_set(action->rsc->flags, pe_rsc_failed)? " failed" : "",
	action->uuid);
	}
	}

	graph_element_from_action(action, data_set);
	}

	crm_log_xml_trace(data_set->graph, "created generic action list");
	crm_trace("Created transition graph %d.", transition_id);

	return TRUE;
	}
	-
	-void
	-LogNodeActions(pe_working_set_t * data_set)
	-{
	- pcmk__output_t *out = data_set->priv;
	- GList *gIter = NULL;
	-
	- for (gIter = data_set->actions; gIter != NULL; gIter = gIter->next) {
	- char *node_name = NULL;
	- char *task = NULL;
	- pe_action_t action = (pe_action_t ) gIter->data;
	-
	- if (action->rsc != NULL) {
	- continue;
	- } else if (pcmk_is_set(action->flags, pe_action_optional)) {
	- continue;
	- }
	-
	- if (pe__is_guest_node(action->node)) {
	- node_name = crm_strdup_printf("%s (resource: %s)", action->node->details->uname, action->node->details->remote_rsc->container->id);
	- } else if(action->node) {
	- node_name = crm_strdup_printf("%s", action->node->details->uname);
	- }
	-
	-
	- if (pcmk__str_eq(action->task, CRM_OP_SHUTDOWN, pcmk__str_casei)) {
	- task = strdup("Shutdown");
	- } else if (pcmk__str_eq(action->task, CRM_OP_FENCE, pcmk__str_casei)) {
	- const char *op = g_hash_table_lookup(action->meta, "stonith_action");
	- task = crm_strdup_printf("Fence (%s)", op);
	- }
	-
	- out->message(out, "node-action", task, node_name, action->reason);
	-
	- free(node_name);
	- free(task);
	- }
	-}

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