diff --git a/daemons/execd/execd_commands.c b/daemons/execd/execd_commands.c
index 19fde2414e..17947af3e3 100644
--- a/daemons/execd/execd_commands.c
+++ b/daemons/execd/execd_commands.c
@@ -1,1976 +1,1976 @@
 /*
  * Copyright 2012-2021 the Pacemaker project contributors
  *
  * The version control history for this file may have further details.
  *
  * This source code is licensed under the GNU Lesser General Public License
  * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
  */
 
 #include <crm_internal.h>
 
 #include <glib.h>
 
 // Check whether we have a high-resolution monotonic clock
 #undef PCMK__TIME_USE_CGT
 #if HAVE_DECL_CLOCK_MONOTONIC && defined(CLOCK_MONOTONIC)
 #  define PCMK__TIME_USE_CGT
 #  include <time.h>  /* clock_gettime */
 #endif
 
 #include <unistd.h>
 
 #include <crm/crm.h>
 #include <crm/services.h>
 #include <crm/common/mainloop.h>
 #include <crm/common/ipc.h>
 #include <crm/common/ipc_internal.h>
 #include <crm/msg_xml.h>
 
 #include "pacemaker-execd.h"
 
 #define EXIT_REASON_MAX_LEN 128
 
 GHashTable *rsc_list = NULL;
 
 typedef struct lrmd_cmd_s {
     int timeout;
     guint interval_ms;
     int start_delay;
     int timeout_orig;
 
     int call_id;
     int exec_rc;
     int lrmd_op_status;
 
     int call_opts;
     /* Timer ids, must be removed on cmd destruction. */
     int delay_id;
     int stonith_recurring_id;
 
     int rsc_deleted;
 
     int service_flags;
 
     char *client_id;
     char *origin;
     char *rsc_id;
     char *action;
     char *real_action;
     char *exit_reason;
     char *output;
     char *userdata_str;
 
     /* We can track operation queue time and run time, to be saved with the CIB
      * resource history (and displayed in cluster status). We need
      * high-resolution monotonic time for this purpose, so we use
      * clock_gettime(CLOCK_MONOTONIC, ...) (if available, otherwise this feature
      * is disabled).
      *
      * However, we also need epoch timestamps for recording the time the command
      * last ran and the time its return value last changed, for use in time
      * displays (as opposed to interval calculations). We keep time_t values for
      * this purpose.
      *
      * The last run time is used for both purposes, so we keep redundant
      * monotonic and epoch values for this. Technically the two could represent
      * different times, but since time_t has only second resolution and the
      * values are used for distinct purposes, that is not significant.
      */
 #ifdef PCMK__TIME_USE_CGT
     /* Recurring and systemd operations may involve more than one executor
      * command per operation, so they need info about the original and the most
      * recent.
      */
     struct timespec t_first_run;    // When op first ran
     struct timespec t_run;          // When op most recently ran
     struct timespec t_first_queue;  // When op was first queued
     struct timespec t_queue;        // When op was most recently queued
 #endif
     time_t epoch_last_run;          // Epoch timestamp of when op last ran
     time_t epoch_rcchange;          // Epoch timestamp of when rc last changed
 
     int first_notify_sent;
     int last_notify_rc;
     int last_notify_op_status;
     int last_pid;
 
     GHashTable *params;
 } lrmd_cmd_t;
 
 static void cmd_finalize(lrmd_cmd_t * cmd, lrmd_rsc_t * rsc);
 static gboolean lrmd_rsc_dispatch(gpointer user_data);
 static void cancel_all_recurring(lrmd_rsc_t * rsc, const char *client_id);
 
 #ifdef PCMK__TIME_USE_CGT
 
 /*!
  * \internal
  * \brief Check whether a struct timespec has been set
  *
  * \param[in] timespec  Time to check
  *
  * \return true if timespec has been set (i.e. is nonzero), false otherwise
  */
 static inline bool
 time_is_set(struct timespec *timespec)
 {
     return (timespec != NULL) &&
            ((timespec->tv_sec != 0) || (timespec->tv_nsec != 0));
 }
 
 /*
  * \internal
  * \brief Set a timespec (and its original if unset) to the current time
  *
  * \param[out] t_current  Where to store current time
  * \param[out] t_orig     Where to copy t_current if unset
  */
 static void
 get_current_time(struct timespec *t_current, struct timespec *t_orig)
 {
     clock_gettime(CLOCK_MONOTONIC, t_current);
     if ((t_orig != NULL) && !time_is_set(t_orig)) {
         *t_orig = *t_current;
     }
 }
 
 /*!
  * \internal
  * \brief Return difference between two times in milliseconds
  *
  * \param[in] now  More recent time (or NULL to use current time)
  * \param[in] old  Earlier time
  *
  * \return milliseconds difference (or 0 if old is NULL or unset)
  *
  * \note Can overflow on 32bit machines when the differences is around
  *       24 days or more.
  */
 static int
 time_diff_ms(struct timespec *now, struct timespec *old)
 {
     int diff_ms = 0;
 
     if (time_is_set(old)) {
         struct timespec local_now = { 0, };
 
         if (now == NULL) {
             clock_gettime(CLOCK_MONOTONIC, &local_now);
             now = &local_now;
         }
         diff_ms = (now->tv_sec - old->tv_sec) * 1000
                   + (now->tv_nsec - old->tv_nsec) / 1000000;
     }
     return diff_ms;
 }
 
 /*!
  * \internal
  * \brief Reset a command's operation times to their original values.
  *
  * Reset a command's run and queued timestamps to the timestamps of the original
  * command, so we report the entire time since then and not just the time since
  * the most recent command (for recurring and systemd operations).
  *
  * \param[in] cmd  Executor command object to reset
  *
  * \note It's not obvious what the queued time should be for a systemd
  *       start/stop operation, which might go like this:
  *         initial command queued 5ms, runs 3s
  *         monitor command queued 10ms, runs 10s
  *         monitor command queued 10ms, runs 10s
  *       Is the queued time for that operation 5ms, 10ms or 25ms? The current
  *       implementation will report 5ms. If it's 25ms, then we need to
  *       subtract 20ms from the total exec time so as not to count it twice.
  *       We can implement that later if it matters to anyone ...
  */
 static void
 cmd_original_times(lrmd_cmd_t * cmd)
 {
     cmd->t_run = cmd->t_first_run;
     cmd->t_queue = cmd->t_first_queue;
 }
 #endif
 
 static void
 log_finished(lrmd_cmd_t * cmd, int exec_time, int queue_time)
 {
     char pid_str[32] = { 0, };
     int log_level = LOG_INFO;
 
     if (cmd->last_pid) {
         snprintf(pid_str, 32, "%d", cmd->last_pid);
     }
 
     if (pcmk__str_eq(cmd->action, "monitor", pcmk__str_casei)) {
         log_level = LOG_DEBUG;
     }
 #ifdef PCMK__TIME_USE_CGT
     do_crm_log(log_level, "%s %s (call %d%s%s) exited with status %d"
                " (execution time %dms, queue time %dms)",
                cmd->rsc_id, cmd->action, cmd->call_id,
                (cmd->last_pid? ", PID " : ""), pid_str, cmd->exec_rc,
                exec_time, queue_time);
 #else
     do_crm_log(log_level, "%s %s (call %d%s%s) exited with status %d"
                cmd->rsc_id, cmd->action, cmd->call_id,
                (cmd->last_pid? ", PID " : ""), pid_str, cmd->exec_rc);
 #endif
 }
 
 static void
 log_execute(lrmd_cmd_t * cmd)
 {
     int log_level = LOG_INFO;
 
     if (pcmk__str_eq(cmd->action, "monitor", pcmk__str_casei)) {
         log_level = LOG_DEBUG;
     }
 
     do_crm_log(log_level, "executing - rsc:%s action:%s call_id:%d",
                cmd->rsc_id, cmd->action, cmd->call_id);
 }
 
 static const char *
 normalize_action_name(lrmd_rsc_t * rsc, const char *action)
 {
     if (pcmk__str_eq(action, "monitor", pcmk__str_casei) &&
         pcmk_is_set(pcmk_get_ra_caps(rsc->class), pcmk_ra_cap_status)) {
         return "status";
     }
     return action;
 }
 
 static lrmd_rsc_t *
 build_rsc_from_xml(xmlNode * msg)
 {
     xmlNode *rsc_xml = get_xpath_object("//" F_LRMD_RSC, msg, LOG_ERR);
     lrmd_rsc_t *rsc = NULL;
 
     rsc = calloc(1, sizeof(lrmd_rsc_t));
 
     crm_element_value_int(msg, F_LRMD_CALLOPTS, &rsc->call_opts);
 
     rsc->rsc_id = crm_element_value_copy(rsc_xml, F_LRMD_RSC_ID);
     rsc->class = crm_element_value_copy(rsc_xml, F_LRMD_CLASS);
     rsc->provider = crm_element_value_copy(rsc_xml, F_LRMD_PROVIDER);
     rsc->type = crm_element_value_copy(rsc_xml, F_LRMD_TYPE);
     rsc->work = mainloop_add_trigger(G_PRIORITY_HIGH, lrmd_rsc_dispatch, rsc);
     rsc->st_probe_rc = -ENODEV; // if stonith, initialize to "not running"
     return rsc;
 }
 
 static lrmd_cmd_t *
 create_lrmd_cmd(xmlNode *msg, pcmk__client_t *client)
 {
     int call_options = 0;
     xmlNode *rsc_xml = get_xpath_object("//" F_LRMD_RSC, msg, LOG_ERR);
     lrmd_cmd_t *cmd = NULL;
 
     cmd = calloc(1, sizeof(lrmd_cmd_t));
 
     crm_element_value_int(msg, F_LRMD_CALLOPTS, &call_options);
     cmd->call_opts = call_options;
     cmd->client_id = strdup(client->id);
 
     crm_element_value_int(msg, F_LRMD_CALLID, &cmd->call_id);
     crm_element_value_ms(rsc_xml, F_LRMD_RSC_INTERVAL, &cmd->interval_ms);
     crm_element_value_int(rsc_xml, F_LRMD_TIMEOUT, &cmd->timeout);
     crm_element_value_int(rsc_xml, F_LRMD_RSC_START_DELAY, &cmd->start_delay);
     cmd->timeout_orig = cmd->timeout;
 
     cmd->origin = crm_element_value_copy(rsc_xml, F_LRMD_ORIGIN);
     cmd->action = crm_element_value_copy(rsc_xml, F_LRMD_RSC_ACTION);
     cmd->userdata_str = crm_element_value_copy(rsc_xml, F_LRMD_RSC_USERDATA_STR);
     cmd->rsc_id = crm_element_value_copy(rsc_xml, F_LRMD_RSC_ID);
 
     cmd->params = xml2list(rsc_xml);
 
     if (pcmk__str_eq(g_hash_table_lookup(cmd->params, "CRM_meta_on_fail"), "block", pcmk__str_casei)) {
         crm_debug("Setting flag to leave pid group on timeout and "
                   "only kill action pid for " PCMK__OP_FMT,
                   cmd->rsc_id, cmd->action, cmd->interval_ms);
         cmd->service_flags = pcmk__set_flags_as(__func__, __LINE__,
                                                 LOG_TRACE, "Action",
                                                 cmd->action, 0,
                                                 SVC_ACTION_LEAVE_GROUP,
                                                 "SVC_ACTION_LEAVE_GROUP");
     }
     return cmd;
 }
 
 static void
 stop_recurring_timer(lrmd_cmd_t *cmd)
 {
     if (cmd) {
         if (cmd->stonith_recurring_id) {
             g_source_remove(cmd->stonith_recurring_id);
         }
         cmd->stonith_recurring_id = 0;
     }
 }
 
 static void
 free_lrmd_cmd(lrmd_cmd_t * cmd)
 {
     stop_recurring_timer(cmd);
     if (cmd->delay_id) {
         g_source_remove(cmd->delay_id);
     }
     if (cmd->params) {
         g_hash_table_destroy(cmd->params);
     }
     free(cmd->origin);
     free(cmd->action);
     free(cmd->real_action);
     free(cmd->userdata_str);
     free(cmd->rsc_id);
     free(cmd->output);
     free(cmd->exit_reason);
     free(cmd->client_id);
     free(cmd);
 }
 
 static gboolean
 stonith_recurring_op_helper(gpointer data)
 {
     lrmd_cmd_t *cmd = data;
     lrmd_rsc_t *rsc;
 
     cmd->stonith_recurring_id = 0;
 
     if (!cmd->rsc_id) {
         return FALSE;
     }
 
     rsc = g_hash_table_lookup(rsc_list, cmd->rsc_id);
 
     CRM_ASSERT(rsc != NULL);
     /* take it out of recurring_ops list, and put it in the pending ops
      * to be executed */
     rsc->recurring_ops = g_list_remove(rsc->recurring_ops, cmd);
     rsc->pending_ops = g_list_append(rsc->pending_ops, cmd);
 #ifdef PCMK__TIME_USE_CGT
     get_current_time(&(cmd->t_queue), &(cmd->t_first_queue));
 #endif
     mainloop_set_trigger(rsc->work);
 
     return FALSE;
 }
 
 static inline void
 start_recurring_timer(lrmd_cmd_t *cmd)
 {
     if (cmd && (cmd->interval_ms > 0)) {
         cmd->stonith_recurring_id = g_timeout_add(cmd->interval_ms,
                                                   stonith_recurring_op_helper,
                                                   cmd);
     }
 }
 
 static gboolean
 start_delay_helper(gpointer data)
 {
     lrmd_cmd_t *cmd = data;
     lrmd_rsc_t *rsc = NULL;
 
     cmd->delay_id = 0;
     rsc = cmd->rsc_id ? g_hash_table_lookup(rsc_list, cmd->rsc_id) : NULL;
 
     if (rsc) {
         mainloop_set_trigger(rsc->work);
     }
 
     return FALSE;
 }
 
 static gboolean
 merge_recurring_duplicate(lrmd_rsc_t * rsc, lrmd_cmd_t * cmd)
 {
     GList *gIter = NULL;
     lrmd_cmd_t * dup = NULL;
     gboolean dup_pending = FALSE;
 
     if (cmd->interval_ms == 0) {
         return 0;
     }
 
     for (gIter = rsc->pending_ops; gIter != NULL; gIter = gIter->next) {
         dup = gIter->data;
         if (pcmk__str_eq(cmd->action, dup->action, pcmk__str_casei)
             && (cmd->interval_ms == dup->interval_ms)) {
             dup_pending = TRUE;
             goto merge_dup;
         }
     }
 
     /* if dup is in recurring_ops list, that means it has already executed
      * and is in the interval loop. we can't just remove it in this case. */
     for (gIter = rsc->recurring_ops; gIter != NULL; gIter = gIter->next) {
         dup = gIter->data;
         if (pcmk__str_eq(cmd->action, dup->action, pcmk__str_casei)
             && (cmd->interval_ms == dup->interval_ms)) {
             if (pcmk__str_eq(rsc->class, PCMK_RESOURCE_CLASS_STONITH, pcmk__str_casei)) {
                 if (dup->lrmd_op_status == PCMK_LRM_OP_CANCELLED) {
                     /* Fencing monitors marked for cancellation will not be merged to respond to cancellation. */
                     return FALSE;
                 }
             }
             goto merge_dup;
         }
     }
 
     return FALSE;
 merge_dup:
 
 
     /* This should not occur. If it does, we need to investigate how something
      * like this is possible in the controller.
      */
     crm_warn("Duplicate recurring op entry detected (" PCMK__OP_FMT
              "), merging with previous op entry",
              rsc->rsc_id, normalize_action_name(rsc, dup->action),
              dup->interval_ms);
 
     /* merge */
     dup->first_notify_sent = 0;
     free(dup->userdata_str);
     dup->userdata_str = cmd->userdata_str;
     cmd->userdata_str = NULL;
     dup->call_id = cmd->call_id;
 
     if (pcmk__str_eq(rsc->class, PCMK_RESOURCE_CLASS_STONITH, pcmk__str_casei)) {
         /* if we are waiting for the next interval, kick it off now */
         if (dup_pending == TRUE) {
             stop_recurring_timer(cmd);
             stonith_recurring_op_helper(cmd);
         }
 
     } else if (dup_pending == FALSE) {
         /* if we've already handed this to the service lib, kick off an early execution */
         services_action_kick(rsc->rsc_id,
                              normalize_action_name(rsc, dup->action),
                              dup->interval_ms);
     }
     free_lrmd_cmd(cmd);
 
     return TRUE;
 }
 
 static void
 schedule_lrmd_cmd(lrmd_rsc_t * rsc, lrmd_cmd_t * cmd)
 {
     gboolean dup_processed = FALSE;
     CRM_CHECK(cmd != NULL, return);
     CRM_CHECK(rsc != NULL, return);
 
     crm_trace("Scheduling %s on %s", cmd->action, rsc->rsc_id);
 
     dup_processed = merge_recurring_duplicate(rsc, cmd);
     if (dup_processed) {
         /* duplicate recurring cmd found, cmds merged */
         return;
     }
 
     /* The controller expects the executor to automatically cancel
      * recurring operations before a resource stops.
      */
     if (pcmk__str_eq(cmd->action, "stop", pcmk__str_casei)) {
         cancel_all_recurring(rsc, NULL);
     }
 
     rsc->pending_ops = g_list_append(rsc->pending_ops, cmd);
 #ifdef PCMK__TIME_USE_CGT
     get_current_time(&(cmd->t_queue), &(cmd->t_first_queue));
 #endif
     mainloop_set_trigger(rsc->work);
 
     if (cmd->start_delay) {
         cmd->delay_id = g_timeout_add(cmd->start_delay, start_delay_helper, cmd);
     }
 }
 
 static xmlNode *
 create_lrmd_reply(const char *origin, int rc, int call_id)
 {
     xmlNode *reply = create_xml_node(NULL, T_LRMD_REPLY);
 
     crm_xml_add(reply, F_LRMD_ORIGIN, origin);
     crm_xml_add_int(reply, F_LRMD_RC, rc);
     crm_xml_add_int(reply, F_LRMD_CALLID, call_id);
     return reply;
 }
 
 static void
 send_client_notify(gpointer key, gpointer value, gpointer user_data)
 {
     xmlNode *update_msg = user_data;
     pcmk__client_t *client = value;
     int rc;
     int log_level = LOG_WARNING;
     const char *msg = NULL;
 
     CRM_CHECK(client != NULL, return);
     if (client->name == NULL) {
         crm_trace("Skipping notification to client without name");
         return;
     }
     if (pcmk_is_set(client->flags, pcmk__client_to_proxy)) {
         /* We only want to notify clients of the executor IPC API. If we are
          * running as Pacemaker Remote, we may have clients proxied to other
          * IPC services in the cluster, so skip those.
          */
         crm_trace("Skipping executor API notification to client %s",
                   pcmk__client_name(client));
         return;
     }
 
     rc = lrmd_server_send_notify(client, update_msg);
     if (rc == pcmk_rc_ok) {
         return;
     }
 
     switch (rc) {
         case ENOTCONN:
         case EPIPE: // Client exited without waiting for notification
             log_level = LOG_INFO;
             msg = "Disconnected";
             break;
 
         default:
             msg = pcmk_rc_str(rc);
             break;
     }
     do_crm_log(log_level, "Could not notify client %s: %s " CRM_XS " rc=%d",
                pcmk__client_name(client), msg, rc);
 }
 
 static void
 send_cmd_complete_notify(lrmd_cmd_t * cmd)
 {
     xmlNode *notify = NULL;
 
 #ifdef PCMK__TIME_USE_CGT
     int exec_time = time_diff_ms(NULL, &(cmd->t_run));
     int queue_time = time_diff_ms(&cmd->t_run, &(cmd->t_queue));
 
     log_finished(cmd, exec_time, queue_time);
 #else
     log_finished(cmd, 0, 0);
 #endif
 
     /* if the first notify result for a cmd has already been sent earlier, and the
      * the option to only send notifies on result changes is set. Check to see
      * if the last result is the same as the new one. If so, suppress this update */
     if (cmd->first_notify_sent && (cmd->call_opts & lrmd_opt_notify_changes_only)) {
         if (cmd->last_notify_rc == cmd->exec_rc &&
             cmd->last_notify_op_status == cmd->lrmd_op_status) {
 
             /* only send changes */
             return;
         }
 
     }
 
     cmd->first_notify_sent = 1;
     cmd->last_notify_rc = cmd->exec_rc;
     cmd->last_notify_op_status = cmd->lrmd_op_status;
 
     notify = create_xml_node(NULL, T_LRMD_NOTIFY);
 
     crm_xml_add(notify, F_LRMD_ORIGIN, __func__);
     crm_xml_add_int(notify, F_LRMD_TIMEOUT, cmd->timeout);
     crm_xml_add_ms(notify, F_LRMD_RSC_INTERVAL, cmd->interval_ms);
     crm_xml_add_int(notify, F_LRMD_RSC_START_DELAY, cmd->start_delay);
     crm_xml_add_int(notify, F_LRMD_EXEC_RC, cmd->exec_rc);
     crm_xml_add_int(notify, F_LRMD_OP_STATUS, cmd->lrmd_op_status);
     crm_xml_add_int(notify, F_LRMD_CALLID, cmd->call_id);
     crm_xml_add_int(notify, F_LRMD_RSC_DELETED, cmd->rsc_deleted);
 
     crm_xml_add_ll(notify, F_LRMD_RSC_RUN_TIME,
                    (long long) cmd->epoch_last_run);
     crm_xml_add_ll(notify, F_LRMD_RSC_RCCHANGE_TIME,
                    (long long) cmd->epoch_rcchange);
 #ifdef PCMK__TIME_USE_CGT
     crm_xml_add_int(notify, F_LRMD_RSC_EXEC_TIME, exec_time);
     crm_xml_add_int(notify, F_LRMD_RSC_QUEUE_TIME, queue_time);
 #endif
 
     crm_xml_add(notify, F_LRMD_OPERATION, LRMD_OP_RSC_EXEC);
     crm_xml_add(notify, F_LRMD_RSC_ID, cmd->rsc_id);
     if(cmd->real_action) {
         crm_xml_add(notify, F_LRMD_RSC_ACTION, cmd->real_action);
     } else {
         crm_xml_add(notify, F_LRMD_RSC_ACTION, cmd->action);
     }
     crm_xml_add(notify, F_LRMD_RSC_USERDATA_STR, cmd->userdata_str);
     crm_xml_add(notify, F_LRMD_RSC_OUTPUT, cmd->output);
     crm_xml_add(notify, F_LRMD_RSC_EXIT_REASON, cmd->exit_reason);
 
     if (cmd->params) {
         char *key = NULL;
         char *value = NULL;
         GHashTableIter iter;
 
         xmlNode *args = create_xml_node(notify, XML_TAG_ATTRS);
 
         g_hash_table_iter_init(&iter, cmd->params);
         while (g_hash_table_iter_next(&iter, (gpointer *) & key, (gpointer *) & value)) {
             hash2smartfield((gpointer) key, (gpointer) value, args);
         }
     }
     if (cmd->client_id && (cmd->call_opts & lrmd_opt_notify_orig_only)) {
         pcmk__client_t *client = pcmk__find_client_by_id(cmd->client_id);
 
         if (client) {
             send_client_notify(client->id, client, notify);
         }
     } else {
         pcmk__foreach_ipc_client(send_client_notify, notify);
     }
 
     free_xml(notify);
 }
 
 static void
 send_generic_notify(int rc, xmlNode * request)
 {
     if (pcmk__ipc_client_count() != 0) {
         int call_id = 0;
         xmlNode *notify = NULL;
         xmlNode *rsc_xml = get_xpath_object("//" F_LRMD_RSC, request, LOG_ERR);
         const char *rsc_id = crm_element_value(rsc_xml, F_LRMD_RSC_ID);
         const char *op = crm_element_value(request, F_LRMD_OPERATION);
 
         crm_element_value_int(request, F_LRMD_CALLID, &call_id);
 
         notify = create_xml_node(NULL, T_LRMD_NOTIFY);
         crm_xml_add(notify, F_LRMD_ORIGIN, __func__);
         crm_xml_add_int(notify, F_LRMD_RC, rc);
         crm_xml_add_int(notify, F_LRMD_CALLID, call_id);
         crm_xml_add(notify, F_LRMD_OPERATION, op);
         crm_xml_add(notify, F_LRMD_RSC_ID, rsc_id);
 
         pcmk__foreach_ipc_client(send_client_notify, notify);
 
         free_xml(notify);
     }
 }
 
 static void
 cmd_reset(lrmd_cmd_t * cmd)
 {
     cmd->lrmd_op_status = 0;
     cmd->last_pid = 0;
 #ifdef PCMK__TIME_USE_CGT
     memset(&cmd->t_run, 0, sizeof(cmd->t_run));
     memset(&cmd->t_queue, 0, sizeof(cmd->t_queue));
 #endif
     cmd->epoch_last_run = 0;
     free(cmd->exit_reason);
     cmd->exit_reason = NULL;
     free(cmd->output);
     cmd->output = NULL;
 }
 
 static void
 cmd_finalize(lrmd_cmd_t * cmd, lrmd_rsc_t * rsc)
 {
     crm_trace("Resource operation rsc:%s action:%s completed (%p %p)", cmd->rsc_id, cmd->action,
               rsc ? rsc->active : NULL, cmd);
 
     if (rsc && (rsc->active == cmd)) {
         rsc->active = NULL;
         mainloop_set_trigger(rsc->work);
     }
 
     if (!rsc) {
         cmd->rsc_deleted = 1;
     }
 
     /* reset original timeout so client notification has correct information */
     cmd->timeout = cmd->timeout_orig;
 
     send_cmd_complete_notify(cmd);
 
     if (cmd->interval_ms && (cmd->lrmd_op_status == PCMK_LRM_OP_CANCELLED)) {
         if (rsc) {
             rsc->recurring_ops = g_list_remove(rsc->recurring_ops, cmd);
             rsc->pending_ops = g_list_remove(rsc->pending_ops, cmd);
         }
         free_lrmd_cmd(cmd);
     } else if (cmd->interval_ms == 0) {
         if (rsc) {
             rsc->pending_ops = g_list_remove(rsc->pending_ops, cmd);
         }
         free_lrmd_cmd(cmd);
     } else {
         /* Clear all the values pertaining just to the last iteration of a recurring op. */
         cmd_reset(cmd);
     }
 }
 
 static int
 ocf2uniform_rc(int rc)
 {
     switch (rc) {
         case PCMK_OCF_DEGRADED:
         case PCMK_OCF_DEGRADED_MASTER:
             break;
         default:
             if (rc < 0 || rc > PCMK_OCF_FAILED_MASTER)
                 return PCMK_OCF_UNKNOWN_ERROR;
     }
 
     return rc;
 }
 
 static int
 stonith2uniform_rc(const char *action, int rc)
 {
     switch (rc) {
         case pcmk_ok:
             rc = PCMK_OCF_OK;
             break;
 
         case -ENODEV:
             /* This should be possible only for probes in practice, but
              * interpret for all actions to be safe.
              */
             if (pcmk__str_eq(action, "monitor", pcmk__str_casei)) {
                 rc = PCMK_OCF_NOT_RUNNING;
             } else if (pcmk__str_eq(action, "stop", pcmk__str_casei)) {
                 rc = PCMK_OCF_OK;
             } else {
                 rc = PCMK_OCF_NOT_INSTALLED;
             }
             break;
 
         case -EOPNOTSUPP:
             rc = PCMK_OCF_UNIMPLEMENT_FEATURE;
             break;
 
         case -ETIME:
         case -ETIMEDOUT:
             rc = PCMK_OCF_TIMEOUT;
             break;
 
         default:
             rc = PCMK_OCF_UNKNOWN_ERROR;
             break;
     }
     return rc;
 }
 
 #if SUPPORT_NAGIOS
 static int
 nagios2uniform_rc(const char *action, int rc)
 {
     if (rc < 0) {
         return PCMK_OCF_UNKNOWN_ERROR;
     }
 
     switch (rc) {
         case NAGIOS_STATE_OK:
             return PCMK_OCF_OK;
         case NAGIOS_INSUFFICIENT_PRIV:
             return PCMK_OCF_INSUFFICIENT_PRIV;
         case NAGIOS_NOT_INSTALLED:
             return PCMK_OCF_NOT_INSTALLED;
         case NAGIOS_STATE_WARNING:
         case NAGIOS_STATE_CRITICAL:
         case NAGIOS_STATE_UNKNOWN:
         case NAGIOS_STATE_DEPENDENT:
         default:
             return PCMK_OCF_UNKNOWN_ERROR;
     }
 
     return PCMK_OCF_UNKNOWN_ERROR;
 }
 #endif
 
 static int
 get_uniform_rc(const char *standard, const char *action, int rc)
 {
     if (pcmk__str_eq(standard, PCMK_RESOURCE_CLASS_OCF, pcmk__str_casei)) {
         return ocf2uniform_rc(rc);
     } else if (pcmk__str_eq(standard, PCMK_RESOURCE_CLASS_STONITH, pcmk__str_casei)) {
         return stonith2uniform_rc(action, rc);
     } else if (pcmk__str_eq(standard, PCMK_RESOURCE_CLASS_SYSTEMD, pcmk__str_casei)) {
         return rc;
     } else if (pcmk__str_eq(standard, PCMK_RESOURCE_CLASS_UPSTART, pcmk__str_casei)) {
         return rc;
 #if SUPPORT_NAGIOS
     } else if (pcmk__str_eq(standard, PCMK_RESOURCE_CLASS_NAGIOS, pcmk__str_casei)) {
         return nagios2uniform_rc(action, rc);
 #endif
     } else {
         return services_get_ocf_exitcode(action, rc);
     }
 }
 
 static int
 action_get_uniform_rc(svc_action_t * action)
 {
     lrmd_cmd_t *cmd = action->cb_data;
     return get_uniform_rc(action->standard, cmd->action, action->rc);
 }
 
 struct notify_new_client_data {
     xmlNode *notify;
     pcmk__client_t *new_client;
 };
 
 static void
 notify_one_client(gpointer key, gpointer value, gpointer user_data)
 {
     pcmk__client_t *client = value;
     struct notify_new_client_data *data = user_data;
 
     if (!pcmk__str_eq(client->id, data->new_client->id, pcmk__str_casei)) {
         send_client_notify(key, (gpointer) client, (gpointer) data->notify);
     }
 }
 
 void
 notify_of_new_client(pcmk__client_t *new_client)
 {
     struct notify_new_client_data data;
 
     data.new_client = new_client;
     data.notify = create_xml_node(NULL, T_LRMD_NOTIFY);
     crm_xml_add(data.notify, F_LRMD_ORIGIN, __func__);
     crm_xml_add(data.notify, F_LRMD_OPERATION, LRMD_OP_NEW_CLIENT);
     pcmk__foreach_ipc_client(notify_one_client, &data);
     free_xml(data.notify);
 }
 
 static char *
 parse_exit_reason(const char *output)
 {
     const char *cur = NULL;
     const char *last = NULL;
     static int cookie_len = 0;
     char *eol = NULL;
     size_t reason_len = EXIT_REASON_MAX_LEN;
 
     if (output == NULL) {
         return NULL;
     }
 
     if (!cookie_len) {
         cookie_len = strlen(PCMK_OCF_REASON_PREFIX);
     }
 
     cur = strstr(output, PCMK_OCF_REASON_PREFIX);
     for (; cur != NULL; cur = strstr(cur, PCMK_OCF_REASON_PREFIX)) {
         /* skip over the cookie delimiter string */
         cur += cookie_len;
         last = cur;
     }
     if (last == NULL) {
         return NULL;
     }
 
     // Truncate everything after a new line, and limit reason string size
     eol = strchr(last, '\n');
     if (eol) {
         reason_len = QB_MIN(reason_len, eol - last);
     }
     return strndup(last, reason_len);
 }
 
 void
 client_disconnect_cleanup(const char *client_id)
 {
     GHashTableIter iter;
     lrmd_rsc_t *rsc = NULL;
     char *key = NULL;
 
     g_hash_table_iter_init(&iter, rsc_list);
     while (g_hash_table_iter_next(&iter, (gpointer *) & key, (gpointer *) & rsc)) {
         if (rsc->call_opts & lrmd_opt_drop_recurring) {
             /* This client is disconnecting, drop any recurring operations
              * it may have initiated on the resource */
             cancel_all_recurring(rsc, client_id);
         }
     }
 }
 
 static void
 action_complete(svc_action_t * action)
 {
     lrmd_rsc_t *rsc;
     lrmd_cmd_t *cmd = action->cb_data;
     const char *rclass = NULL;
 
 #ifdef PCMK__TIME_USE_CGT
     bool goagain = false;
 #endif
 
     if (!cmd) {
         crm_err("Completed executor action (%s) does not match any known operations",
                 action->id);
         return;
     }
 
 #ifdef PCMK__TIME_USE_CGT
     if (cmd->exec_rc != action->rc) {
         cmd->epoch_rcchange = time(NULL);
     }
 #endif
 
     cmd->last_pid = action->pid;
     cmd->exec_rc = action_get_uniform_rc(action);
     cmd->lrmd_op_status = action->status;
     rsc = cmd->rsc_id ? g_hash_table_lookup(rsc_list, cmd->rsc_id) : NULL;
 
     if (rsc && pcmk__str_eq(rsc->class, PCMK_RESOURCE_CLASS_SERVICE, pcmk__str_casei)) {
         rclass = resources_find_service_class(rsc->type);
     } else if(rsc) {
         rclass = rsc->class;
     }
 
 #ifdef PCMK__TIME_USE_CGT
     if (pcmk__str_eq(rclass, PCMK_RESOURCE_CLASS_SYSTEMD, pcmk__str_casei)) {
         if ((cmd->exec_rc == PCMK_OCF_OK)
             && pcmk__strcase_any_of(cmd->action, "start", "stop", NULL)) {
             /* systemd returns from start and stop actions after the action
              * begins, not after it completes. We have to jump through a few
              * hoops so that we don't report 'complete' to the rest of pacemaker
              * until it's actually done.
              */
             goagain = true;
             cmd->real_action = cmd->action;
             cmd->action = strdup("monitor");
 
         } else if (cmd->real_action != NULL) {
             // This is follow-up monitor to check whether start/stop completed
             if ((cmd->lrmd_op_status == PCMK_LRM_OP_DONE)
                 && (cmd->exec_rc == PCMK_OCF_PENDING)) {
                 goagain = true;
 
             } else if ((cmd->exec_rc == PCMK_OCF_OK)
                        && pcmk__str_eq(cmd->real_action, "stop", pcmk__str_casei)) {
                 goagain = true;
 
             } else {
                 int time_sum = time_diff_ms(NULL, &(cmd->t_first_run));
                 int timeout_left = cmd->timeout_orig - time_sum;
 
                 crm_debug("%s systemd %s is now complete (elapsed=%dms, "
                           "remaining=%dms): %s (%d)",
                           cmd->rsc_id, cmd->real_action, time_sum, timeout_left,
                           services_ocf_exitcode_str(cmd->exec_rc),
                           cmd->exec_rc);
                 cmd_original_times(cmd);
 
                 // Monitors may return "not running", but start/stop shouldn't
                 if ((cmd->lrmd_op_status == PCMK_LRM_OP_DONE)
                     && (cmd->exec_rc == PCMK_OCF_NOT_RUNNING)) {
 
                     if (pcmk__str_eq(cmd->real_action, "start", pcmk__str_casei)) {
                         cmd->exec_rc = PCMK_OCF_UNKNOWN_ERROR;
                     } else if (pcmk__str_eq(cmd->real_action, "stop", pcmk__str_casei)) {
                         cmd->exec_rc = PCMK_OCF_OK;
                     }
                 }
             }
         }
     }
 #endif
 
 #if SUPPORT_NAGIOS
     if (rsc && pcmk__str_eq(rsc->class, PCMK_RESOURCE_CLASS_NAGIOS, pcmk__str_casei)) {
         if (pcmk__str_eq(cmd->action, "monitor", pcmk__str_casei) &&
             (cmd->interval_ms == 0) && cmd->exec_rc == PCMK_OCF_OK) {
             /* Successfully executed --version for the nagios plugin */
             cmd->exec_rc = PCMK_OCF_NOT_RUNNING;
 
         } else if (pcmk__str_eq(cmd->action, "start", pcmk__str_casei) && cmd->exec_rc != PCMK_OCF_OK) {
 #ifdef PCMK__TIME_USE_CGT
             goagain = true;
 #endif
         }
     }
 #endif
 
 #ifdef PCMK__TIME_USE_CGT
     if (goagain) {
         int time_sum = time_diff_ms(NULL, &(cmd->t_first_run));
         int timeout_left = cmd->timeout_orig - time_sum;
         int delay = cmd->timeout_orig / 10;
 
         if(delay >= timeout_left && timeout_left > 20) {
             delay = timeout_left/2;
         }
 
         delay = QB_MIN(2000, delay);
         if (delay < timeout_left) {
             cmd->start_delay = delay;
             cmd->timeout = timeout_left;
 
             if(cmd->exec_rc == PCMK_OCF_OK) {
                 crm_debug("%s %s may still be in progress: re-scheduling (elapsed=%dms, remaining=%dms, start_delay=%dms)",
                           cmd->rsc_id, cmd->real_action, time_sum, timeout_left, delay);
 
             } else if(cmd->exec_rc == PCMK_OCF_PENDING) {
                 crm_info("%s %s is still in progress: re-scheduling (elapsed=%dms, remaining=%dms, start_delay=%dms)",
                          cmd->rsc_id, cmd->action, time_sum, timeout_left, delay);
 
             } else {
                 crm_notice("%s %s failed '%s' (%d): re-scheduling (elapsed=%dms, remaining=%dms, start_delay=%dms)",
                            cmd->rsc_id, cmd->action, services_ocf_exitcode_str(cmd->exec_rc), cmd->exec_rc, time_sum, timeout_left, delay);
             }
 
             cmd_reset(cmd);
             if(rsc) {
                 rsc->active = NULL;
             }
             schedule_lrmd_cmd(rsc, cmd);
 
             /* Don't finalize cmd, we're not done with it yet */
             return;
 
         } else {
             crm_notice("Giving up on %s %s (rc=%d): timeout (elapsed=%dms, remaining=%dms)",
                        cmd->rsc_id, cmd->real_action?cmd->real_action:cmd->action, cmd->exec_rc, time_sum, timeout_left);
             cmd->lrmd_op_status = PCMK_LRM_OP_TIMEOUT;
             cmd->exec_rc = PCMK_OCF_TIMEOUT;
             cmd_original_times(cmd);
         }
     }
 #endif
 
     if (action->stderr_data) {
         cmd->output = strdup(action->stderr_data);
         cmd->exit_reason = parse_exit_reason(action->stderr_data);
 
     } else if (action->stdout_data) {
         cmd->output = strdup(action->stdout_data);
     }
 
     cmd_finalize(cmd, rsc);
 }
 
 /*!
  * \internal
  * \brief Determine operation status of a stonith operation
  *
  * Non-stonith resource operations get their operation status directly from the
  * service library, but the fencer does not have an equivalent, so we must infer
  * an operation status from the fencer API's return code.
  *
  * \param[in] action       Name of action performed on stonith resource
  * \param[in] interval_ms  Action interval
  * \param[in] rc           Action result from fencer
  *
  * \return Operation status corresponding to fencer API return code
  */
 static int
 stonith_rc2status(const char *action, guint interval_ms, int rc)
 {
     int status = PCMK_LRM_OP_DONE;
 
     switch (rc) {
         case pcmk_ok:
             break;
 
         case -EOPNOTSUPP:
         case -EPROTONOSUPPORT:
             status = PCMK_LRM_OP_NOTSUPPORTED;
             break;
 
         case -ETIME:
         case -ETIMEDOUT:
             status = PCMK_LRM_OP_TIMEOUT;
             break;
 
         case -ENOTCONN:
         case -ECOMM:
             // Couldn't talk to fencer
             status = PCMK_LRM_OP_ERROR;
             break;
 
         case -ENODEV:
             // The device is not registered with the fencer
             status = PCMK_LRM_OP_ERROR;
             break;
 
         default:
             break;
     }
     return status;
 }
 
 static void
 stonith_action_complete(lrmd_cmd_t * cmd, int rc)
 {
     // This can be NULL if resource was removed before command completed
     lrmd_rsc_t *rsc = g_hash_table_lookup(rsc_list, cmd->rsc_id);
 
     cmd->exec_rc = stonith2uniform_rc(cmd->action, rc);
 
     /* This function may be called with status already set to cancelled, if a
      * pending action was aborted. Otherwise, we need to determine status from
      * the fencer return code.
      */
     if (cmd->lrmd_op_status != PCMK_LRM_OP_CANCELLED) {
         cmd->lrmd_op_status = stonith_rc2status(cmd->action, cmd->interval_ms,
                                                 rc);
 
         // Certain successful actions change the known state of the resource
         if (rsc && (cmd->exec_rc == PCMK_OCF_OK)) {
             if (pcmk__str_eq(cmd->action, "start", pcmk__str_casei)) {
                 rsc->st_probe_rc = pcmk_ok; // maps to PCMK_OCF_OK
             } else if (pcmk__str_eq(cmd->action, "stop", pcmk__str_casei)) {
                 rsc->st_probe_rc = -ENODEV; // maps to PCMK_OCF_NOT_RUNNING
             }
         }
     }
 
     /* The recurring timer should not be running at this point in any case, but
      * as a failsafe, stop it if it is.
      */
     stop_recurring_timer(cmd);
 
     /* Reschedule this command if appropriate. If a recurring command is *not*
      * rescheduled, its status must be PCMK_LRM_OP_CANCELLED, otherwise it will
      * not be removed from recurring_ops by cmd_finalize().
      */
     if (rsc && (cmd->interval_ms > 0)
         && (cmd->lrmd_op_status != PCMK_LRM_OP_CANCELLED)) {
         start_recurring_timer(cmd);
     }
 
     cmd_finalize(cmd, rsc);
 }
 
 static void
 lrmd_stonith_callback(stonith_t * stonith, stonith_callback_data_t * data)
 {
     stonith_action_complete(data->userdata, data->rc);
 }
 
 void
 stonith_connection_failed(void)
 {
     GHashTableIter iter;
     GList *cmd_list = NULL;
     GList *cmd_iter = NULL;
     lrmd_rsc_t *rsc = NULL;
     char *key = NULL;
 
     g_hash_table_iter_init(&iter, rsc_list);
     while (g_hash_table_iter_next(&iter, (gpointer *) & key, (gpointer *) & rsc)) {
         if (pcmk__str_eq(rsc->class, PCMK_RESOURCE_CLASS_STONITH, pcmk__str_casei)) {
             /* If we registered this fence device, we don't know whether the
              * fencer still has the registration or not. Cause future probes to
              * return PCMK_OCF_UNKNOWN_ERROR until the resource is stopped or
              * started successfully. This is especially important if the
              * controller also went away (possibly due to a cluster layer
              * restart) and won't receive our client notification of any
              * monitors finalized below.
              */
             if (rsc->st_probe_rc == pcmk_ok) {
                 rsc->st_probe_rc = pcmk_err_generic;
             }
 
             if (rsc->active) {
                 cmd_list = g_list_append(cmd_list, rsc->active);
             }
             if (rsc->recurring_ops) {
                 cmd_list = g_list_concat(cmd_list, rsc->recurring_ops);
             }
             if (rsc->pending_ops) {
                 cmd_list = g_list_concat(cmd_list, rsc->pending_ops);
             }
             rsc->pending_ops = rsc->recurring_ops = NULL;
         }
     }
 
     if (!cmd_list) {
         return;
     }
 
     crm_err("Connection to fencer failed, finalizing %d pending operations",
             g_list_length(cmd_list));
     for (cmd_iter = cmd_list; cmd_iter; cmd_iter = cmd_iter->next) {
         stonith_action_complete(cmd_iter->data, -ENOTCONN);
     }
     g_list_free(cmd_list);
 }
 
 /*!
  * \internal
  * \brief Execute a stonith resource "start" action
  *
  * Start a stonith resource by registering it with the fencer.
  * (Stonith agents don't have a start command.)
  *
  * \param[in] stonith_api  Connection to fencer
  * \param[in] rsc          Stonith resource to start
  * \param[in] cmd          Start command to execute
  *
  * \return pcmk_ok on success, -errno otherwise
  */
 static int
 execd_stonith_start(stonith_t *stonith_api, lrmd_rsc_t *rsc, lrmd_cmd_t *cmd)
 {
     char *key = NULL;
     char *value = NULL;
     stonith_key_value_t *device_params = NULL;
     int rc = pcmk_ok;
 
     // Convert command parameters to stonith API key/values
     if (cmd->params) {
         GHashTableIter iter;
 
         g_hash_table_iter_init(&iter, cmd->params);
         while (g_hash_table_iter_next(&iter, (gpointer *) & key, (gpointer *) & value)) {
             device_params = stonith_key_value_add(device_params, key, value);
         }
     }
 
     /* The fencer will automatically register devices via CIB notifications
      * when the CIB changes, but to avoid a possible race condition between
      * the fencer receiving the notification and the executor requesting that
      * resource, the executor registers the device as well. The fencer knows how
      * to handle duplicate registrations.
      */
     rc = stonith_api->cmds->register_device(stonith_api, st_opt_sync_call,
                                             cmd->rsc_id, rsc->provider,
                                             rsc->type, device_params);
 
     stonith_key_value_freeall(device_params, 1, 1);
     return rc;
 }
 
 /*!
  * \internal
  * \brief Execute a stonith resource "stop" action
  *
  * Stop a stonith resource by unregistering it with the fencer.
  * (Stonith agents don't have a stop command.)
  *
  * \param[in] stonith_api  Connection to fencer
  * \param[in] rsc          Stonith resource to stop
  *
  * \return pcmk_ok on success, -errno otherwise
  */
 static inline int
 execd_stonith_stop(stonith_t *stonith_api, const lrmd_rsc_t *rsc)
 {
     /* @TODO Failure would indicate a problem communicating with fencer;
      * perhaps we should try reconnecting and retrying a few times?
      */
     return stonith_api->cmds->remove_device(stonith_api, st_opt_sync_call,
                                             rsc->rsc_id);
 }
 
 /*!
  * \internal
  * \brief Initiate a stonith resource agent recurring "monitor" action
  *
  * \param[in] stonith_api  Connection to fencer
  * \param[in] rsc          Stonith resource to monitor
  * \param[in] cmd          Monitor command being executed
  *
  * \return pcmk_ok if monitor was successfully initiated, -errno otherwise
  */
 static inline int
 execd_stonith_monitor(stonith_t *stonith_api, lrmd_rsc_t *rsc, lrmd_cmd_t *cmd)
 {
     int rc = stonith_api->cmds->monitor(stonith_api, 0, cmd->rsc_id,
                                         cmd->timeout / 1000);
 
     rc = stonith_api->cmds->register_callback(stonith_api, rc, 0, 0, cmd,
                                               "lrmd_stonith_callback",
                                               lrmd_stonith_callback);
     if (rc == TRUE) {
         rsc->active = cmd;
         rc = pcmk_ok;
     } else {
         rc = -pcmk_err_generic;
     }
     return rc;
 }
 
 static void
 lrmd_rsc_execute_stonith(lrmd_rsc_t * rsc, lrmd_cmd_t * cmd)
 {
     int rc = 0;
     bool do_monitor = FALSE;
 
     stonith_t *stonith_api = get_stonith_connection();
 
     if (!stonith_api) {
         rc = -ENOTCONN;
 
     } else if (pcmk__str_eq(cmd->action, "start", pcmk__str_casei)) {
         rc = execd_stonith_start(stonith_api, rsc, cmd);
         if (rc == 0) {
             do_monitor = TRUE;
         }
 
     } else if (pcmk__str_eq(cmd->action, "stop", pcmk__str_casei)) {
         rc = execd_stonith_stop(stonith_api, rsc);
 
     } else if (pcmk__str_eq(cmd->action, "monitor", pcmk__str_casei)) {
         if (cmd->interval_ms > 0) {
             do_monitor = TRUE;
         } else {
             rc = rsc->st_probe_rc;
         }
     }
 
     if (do_monitor) {
         rc = execd_stonith_monitor(stonith_api, rsc, cmd);
         if (rc == pcmk_ok) {
             // Don't clean up yet, we will find out result of the monitor later
             return;
         }
     }
 
     stonith_action_complete(cmd, rc);
 }
 
 static int
 lrmd_rsc_execute_service_lib(lrmd_rsc_t * rsc, lrmd_cmd_t * cmd)
 {
     svc_action_t *action = NULL;
     GHashTable *params_copy = NULL;
 
     CRM_ASSERT(rsc);
     CRM_ASSERT(cmd);
 
     crm_trace("Creating action, resource:%s action:%s class:%s provider:%s agent:%s",
               rsc->rsc_id, cmd->action, rsc->class, rsc->provider, rsc->type);
 
 #if SUPPORT_NAGIOS
     /* Recurring operations are cancelled anyway for a stop operation */
     if (pcmk__str_eq(rsc->class, PCMK_RESOURCE_CLASS_NAGIOS, pcmk__str_casei)
         && pcmk__str_eq(cmd->action, "stop", pcmk__str_casei)) {
 
         cmd->exec_rc = PCMK_OCF_OK;
         goto exec_done;
     }
 #endif
 
-    params_copy = crm_str_table_dup(cmd->params);
+    params_copy = pcmk__str_table_dup(cmd->params);
 
     action = resources_action_create(rsc->rsc_id, rsc->class, rsc->provider,
                                      rsc->type,
                                      normalize_action_name(rsc, cmd->action),
                                      cmd->interval_ms, cmd->timeout,
                                      params_copy, cmd->service_flags);
 
     if (!action) {
         crm_err("Failed to create action, action:%s on resource %s", cmd->action, rsc->rsc_id);
         cmd->lrmd_op_status = PCMK_LRM_OP_ERROR;
         goto exec_done;
     }
 
     action->cb_data = cmd;
 
     /* 'cmd' may not be valid after this point if
      * services_action_async() returned TRUE
      *
      * Upstart and systemd both synchronously determine monitor/status
      * results and call action_complete (which may free 'cmd') if necessary.
      */
     if (services_action_async(action, action_complete)) {
         return TRUE;
     }
 
     cmd->exec_rc = action->rc;
     if(action->status != PCMK_LRM_OP_DONE) {
         cmd->lrmd_op_status = action->status;
     } else {
         cmd->lrmd_op_status = PCMK_LRM_OP_ERROR;
     }
     services_action_free(action);
     action = NULL;
 
   exec_done:
     cmd_finalize(cmd, rsc);
     return TRUE;
 }
 
 static gboolean
 lrmd_rsc_execute(lrmd_rsc_t * rsc)
 {
     lrmd_cmd_t *cmd = NULL;
 
     CRM_CHECK(rsc != NULL, return FALSE);
 
     if (rsc->active) {
         crm_trace("%s is still active", rsc->rsc_id);
         return TRUE;
     }
 
     if (rsc->pending_ops) {
         GList *first = rsc->pending_ops;
 
         cmd = first->data;
         if (cmd->delay_id) {
             crm_trace
                 ("Command %s %s was asked to run too early, waiting for start_delay timeout of %dms",
                  cmd->rsc_id, cmd->action, cmd->start_delay);
             return TRUE;
         }
         rsc->pending_ops = g_list_remove_link(rsc->pending_ops, first);
         g_list_free_1(first);
 
 #ifdef PCMK__TIME_USE_CGT
         get_current_time(&(cmd->t_run), &(cmd->t_first_run));
 #endif
         cmd->epoch_last_run = time(NULL);
     }
 
     if (!cmd) {
         crm_trace("Nothing further to do for %s", rsc->rsc_id);
         return TRUE;
     }
 
     rsc->active = cmd;          /* only one op at a time for a rsc */
     if (cmd->interval_ms) {
         rsc->recurring_ops = g_list_append(rsc->recurring_ops, cmd);
     }
 
     log_execute(cmd);
 
     if (pcmk__str_eq(rsc->class, PCMK_RESOURCE_CLASS_STONITH, pcmk__str_casei)) {
         lrmd_rsc_execute_stonith(rsc, cmd);
     } else {
         lrmd_rsc_execute_service_lib(rsc, cmd);
     }
 
     return TRUE;
 }
 
 static gboolean
 lrmd_rsc_dispatch(gpointer user_data)
 {
     return lrmd_rsc_execute(user_data);
 }
 
 void
 free_rsc(gpointer data)
 {
     GList *gIter = NULL;
     lrmd_rsc_t *rsc = data;
     int is_stonith = pcmk__str_eq(rsc->class, PCMK_RESOURCE_CLASS_STONITH,
                                   pcmk__str_casei);
 
     gIter = rsc->pending_ops;
     while (gIter != NULL) {
         GList *next = gIter->next;
         lrmd_cmd_t *cmd = gIter->data;
 
         /* command was never executed */
         cmd->lrmd_op_status = PCMK_LRM_OP_CANCELLED;
         cmd_finalize(cmd, NULL);
 
         gIter = next;
     }
     /* frees list, but not list elements. */
     g_list_free(rsc->pending_ops);
 
     gIter = rsc->recurring_ops;
     while (gIter != NULL) {
         GList *next = gIter->next;
         lrmd_cmd_t *cmd = gIter->data;
 
         if (is_stonith) {
             cmd->lrmd_op_status = PCMK_LRM_OP_CANCELLED;
             /* If a stonith command is in-flight, just mark it as cancelled;
              * it is not safe to finalize/free the cmd until the stonith api
              * says it has either completed or timed out.
              */
             if (rsc->active != cmd) {
                 cmd_finalize(cmd, NULL);
             }
         } else {
             /* This command is already handed off to service library,
              * let service library cancel it and tell us via the callback
              * when it is cancelled. The rsc can be safely destroyed
              * even if we are waiting for the cancel result */
             services_action_cancel(rsc->rsc_id,
                                    normalize_action_name(rsc, cmd->action),
                                    cmd->interval_ms);
         }
 
         gIter = next;
     }
     /* frees list, but not list elements. */
     g_list_free(rsc->recurring_ops);
 
     free(rsc->rsc_id);
     free(rsc->class);
     free(rsc->provider);
     free(rsc->type);
     mainloop_destroy_trigger(rsc->work);
 
     free(rsc);
 }
 
 static int
 process_lrmd_signon(pcmk__client_t *client, xmlNode *request, int call_id,
                     xmlNode **reply)
 {
     int rc = pcmk_ok;
     const char *is_ipc_provider = crm_element_value(request, F_LRMD_IS_IPC_PROVIDER);
     const char *protocol_version = crm_element_value(request, F_LRMD_PROTOCOL_VERSION);
 
     if (compare_version(protocol_version, LRMD_MIN_PROTOCOL_VERSION) < 0) {
         crm_err("Cluster API version must be greater than or equal to %s, not %s",
                 LRMD_MIN_PROTOCOL_VERSION, protocol_version);
         rc = -EPROTO;
     }
 
     if (crm_is_true(is_ipc_provider)) {
 #ifdef PCMK__COMPILE_REMOTE
         if ((client->remote != NULL) && client->remote->tls_handshake_complete) {
             // This is a remote connection from a cluster node's controller
             ipc_proxy_add_provider(client);
         } else {
             rc = -EACCES;
         }
 #else
         rc = -EPROTONOSUPPORT;
 #endif
     }
 
     *reply = create_lrmd_reply(__func__, rc, call_id);
     crm_xml_add(*reply, F_LRMD_OPERATION, CRM_OP_REGISTER);
     crm_xml_add(*reply, F_LRMD_CLIENTID, client->id);
     crm_xml_add(*reply, F_LRMD_PROTOCOL_VERSION, LRMD_PROTOCOL_VERSION);
 
     return rc;
 }
 
 static int
 process_lrmd_rsc_register(pcmk__client_t *client, uint32_t id, xmlNode *request)
 {
     int rc = pcmk_ok;
     lrmd_rsc_t *rsc = build_rsc_from_xml(request);
     lrmd_rsc_t *dup = g_hash_table_lookup(rsc_list, rsc->rsc_id);
 
     if (dup &&
         pcmk__str_eq(rsc->class, dup->class, pcmk__str_casei) &&
         pcmk__str_eq(rsc->provider, dup->provider, pcmk__str_casei) && pcmk__str_eq(rsc->type, dup->type, pcmk__str_casei)) {
 
         crm_notice("Ignoring duplicate registration of '%s'", rsc->rsc_id);
         free_rsc(rsc);
         return rc;
     }
 
     g_hash_table_replace(rsc_list, rsc->rsc_id, rsc);
     crm_info("Cached agent information for '%s'", rsc->rsc_id);
     return rc;
 }
 
 static xmlNode *
 process_lrmd_get_rsc_info(xmlNode *request, int call_id)
 {
     int rc = pcmk_ok;
     xmlNode *rsc_xml = get_xpath_object("//" F_LRMD_RSC, request, LOG_ERR);
     const char *rsc_id = crm_element_value(rsc_xml, F_LRMD_RSC_ID);
     xmlNode *reply = NULL;
     lrmd_rsc_t *rsc = NULL;
 
     if (rsc_id == NULL) {
         rc = -ENODEV;
     } else {
         rsc = g_hash_table_lookup(rsc_list, rsc_id);
         if (rsc == NULL) {
             crm_info("Agent information for '%s' not in cache", rsc_id);
             rc = -ENODEV;
         }
     }
 
     reply = create_lrmd_reply(__func__, rc, call_id);
     if (rsc) {
         crm_xml_add(reply, F_LRMD_RSC_ID, rsc->rsc_id);
         crm_xml_add(reply, F_LRMD_CLASS, rsc->class);
         crm_xml_add(reply, F_LRMD_PROVIDER, rsc->provider);
         crm_xml_add(reply, F_LRMD_TYPE, rsc->type);
     }
     return reply;
 }
 
 static int
 process_lrmd_rsc_unregister(pcmk__client_t *client, uint32_t id,
                             xmlNode *request)
 {
     int rc = pcmk_ok;
     lrmd_rsc_t *rsc = NULL;
     xmlNode *rsc_xml = get_xpath_object("//" F_LRMD_RSC, request, LOG_ERR);
     const char *rsc_id = crm_element_value(rsc_xml, F_LRMD_RSC_ID);
 
     if (!rsc_id) {
         return -ENODEV;
     }
 
     rsc = g_hash_table_lookup(rsc_list, rsc_id);
     if (rsc == NULL) {
         crm_info("Ignoring unregistration of resource '%s', which is not registered",
                  rsc_id);
         return pcmk_ok;
     }
 
     if (rsc->active) {
         /* let the caller know there are still active ops on this rsc to watch for */
         crm_trace("Operation (0x%p) still in progress for unregistered resource %s",
                   rsc->active, rsc_id);
         rc = -EINPROGRESS;
     }
 
     g_hash_table_remove(rsc_list, rsc_id);
 
     return rc;
 }
 
 static int
 process_lrmd_rsc_exec(pcmk__client_t *client, uint32_t id, xmlNode *request)
 {
     lrmd_rsc_t *rsc = NULL;
     lrmd_cmd_t *cmd = NULL;
     xmlNode *rsc_xml = get_xpath_object("//" F_LRMD_RSC, request, LOG_ERR);
     const char *rsc_id = crm_element_value(rsc_xml, F_LRMD_RSC_ID);
     int call_id;
 
     if (!rsc_id) {
         return -EINVAL;
     }
     if (!(rsc = g_hash_table_lookup(rsc_list, rsc_id))) {
         crm_info("Resource '%s' not found (%d active resources)",
                  rsc_id, g_hash_table_size(rsc_list));
         return -ENODEV;
     }
 
     cmd = create_lrmd_cmd(request, client);
     call_id = cmd->call_id;
 
     /* Don't reference cmd after handing it off to be scheduled.
      * The cmd could get merged and freed. */
     schedule_lrmd_cmd(rsc, cmd);
 
     return call_id;
 }
 
 static int
 cancel_op(const char *rsc_id, const char *action, guint interval_ms)
 {
     GList *gIter = NULL;
     lrmd_rsc_t *rsc = g_hash_table_lookup(rsc_list, rsc_id);
 
     /* How to cancel an action.
      * 1. Check pending ops list, if it hasn't been handed off
      *    to the service library or stonith recurring list remove
      *    it there and that will stop it.
      * 2. If it isn't in the pending ops list, then it's either a
      *    recurring op in the stonith recurring list, or the service
      *    library's recurring list.  Stop it there
      * 3. If not found in any lists, then this operation has either
      *    been executed already and is not a recurring operation, or
      *    never existed.
      */
     if (!rsc) {
         return -ENODEV;
     }
 
     for (gIter = rsc->pending_ops; gIter != NULL; gIter = gIter->next) {
         lrmd_cmd_t *cmd = gIter->data;
 
         if (pcmk__str_eq(cmd->action, action, pcmk__str_casei)
             && (cmd->interval_ms == interval_ms)) {
 
             cmd->lrmd_op_status = PCMK_LRM_OP_CANCELLED;
             cmd_finalize(cmd, rsc);
             return pcmk_ok;
         }
     }
 
     if (pcmk__str_eq(rsc->class, PCMK_RESOURCE_CLASS_STONITH, pcmk__str_casei)) {
         /* The service library does not handle stonith operations.
          * We have to handle recurring stonith operations ourselves. */
         for (gIter = rsc->recurring_ops; gIter != NULL; gIter = gIter->next) {
             lrmd_cmd_t *cmd = gIter->data;
 
             if (pcmk__str_eq(cmd->action, action, pcmk__str_casei)
                 && (cmd->interval_ms == interval_ms)) {
 
                 cmd->lrmd_op_status = PCMK_LRM_OP_CANCELLED;
                 if (rsc->active != cmd) {
                     cmd_finalize(cmd, rsc);
                 }
                 return pcmk_ok;
             }
         }
     } else if (services_action_cancel(rsc_id,
                                       normalize_action_name(rsc, action),
                                       interval_ms) == TRUE) {
         /* The service library will tell the action_complete callback function
          * this action was cancelled, which will destroy the cmd and remove
          * it from the recurring_op list. Do not do that in this function
          * if the service library says it cancelled it. */
         return pcmk_ok;
     }
 
     return -EOPNOTSUPP;
 }
 
 static void
 cancel_all_recurring(lrmd_rsc_t * rsc, const char *client_id)
 {
     GList *cmd_list = NULL;
     GList *cmd_iter = NULL;
 
     /* Notice a copy of each list is created when concat is called.
      * This prevents odd behavior from occurring when the cmd_list
      * is iterated through later on.  It is possible the cancel_op
      * function may end up modifying the recurring_ops and pending_ops
      * lists.  If we did not copy those lists, our cmd_list iteration
      * could get messed up.*/
     if (rsc->recurring_ops) {
         cmd_list = g_list_concat(cmd_list, g_list_copy(rsc->recurring_ops));
     }
     if (rsc->pending_ops) {
         cmd_list = g_list_concat(cmd_list, g_list_copy(rsc->pending_ops));
     }
     if (!cmd_list) {
         return;
     }
 
     for (cmd_iter = cmd_list; cmd_iter; cmd_iter = cmd_iter->next) {
         lrmd_cmd_t *cmd = cmd_iter->data;
 
         if (cmd->interval_ms == 0) {
             continue;
         }
 
         if (client_id && !pcmk__str_eq(cmd->client_id, client_id, pcmk__str_casei)) {
             continue;
         }
 
         cancel_op(rsc->rsc_id, cmd->action, cmd->interval_ms);
     }
     /* frees only the copied list data, not the cmds */
     g_list_free(cmd_list);
 }
 
 static int
 process_lrmd_rsc_cancel(pcmk__client_t *client, uint32_t id, xmlNode *request)
 {
     xmlNode *rsc_xml = get_xpath_object("//" F_LRMD_RSC, request, LOG_ERR);
     const char *rsc_id = crm_element_value(rsc_xml, F_LRMD_RSC_ID);
     const char *action = crm_element_value(rsc_xml, F_LRMD_RSC_ACTION);
     guint interval_ms = 0;
 
     crm_element_value_ms(rsc_xml, F_LRMD_RSC_INTERVAL, &interval_ms);
 
     if (!rsc_id || !action) {
         return -EINVAL;
     }
 
     return cancel_op(rsc_id, action, interval_ms);
 }
 
 static void
 add_recurring_op_xml(xmlNode *reply, lrmd_rsc_t *rsc)
 {
     xmlNode *rsc_xml = create_xml_node(reply, F_LRMD_RSC);
 
     crm_xml_add(rsc_xml, F_LRMD_RSC_ID, rsc->rsc_id);
     for (GList *item = rsc->recurring_ops; item != NULL; item = item->next) {
         lrmd_cmd_t *cmd = item->data;
         xmlNode *op_xml = create_xml_node(rsc_xml, T_LRMD_RSC_OP);
 
         crm_xml_add(op_xml, F_LRMD_RSC_ACTION,
                     (cmd->real_action? cmd->real_action : cmd->action));
         crm_xml_add_ms(op_xml, F_LRMD_RSC_INTERVAL, cmd->interval_ms);
         crm_xml_add_int(op_xml, F_LRMD_TIMEOUT, cmd->timeout_orig);
     }
 }
 
 static xmlNode *
 process_lrmd_get_recurring(xmlNode *request, int call_id)
 {
     int rc = pcmk_ok;
     const char *rsc_id = NULL;
     lrmd_rsc_t *rsc = NULL;
     xmlNode *reply = NULL;
     xmlNode *rsc_xml = NULL;
 
     // Resource ID is optional
     rsc_xml = first_named_child(request, F_LRMD_CALLDATA);
     if (rsc_xml) {
         rsc_xml = first_named_child(rsc_xml, F_LRMD_RSC);
     }
     if (rsc_xml) {
         rsc_id = crm_element_value(rsc_xml, F_LRMD_RSC_ID);
     }
 
     // If resource ID is specified, resource must exist
     if (rsc_id != NULL) {
         rsc = g_hash_table_lookup(rsc_list, rsc_id);
         if (rsc == NULL) {
             crm_info("Resource '%s' not found (%d active resources)",
                      rsc_id, g_hash_table_size(rsc_list));
             rc = -ENODEV;
         }
     }
 
     reply = create_lrmd_reply(__func__, rc, call_id);
 
     // If resource ID is not specified, check all resources
     if (rsc_id == NULL) {
         GHashTableIter iter;
         char *key = NULL;
 
         g_hash_table_iter_init(&iter, rsc_list);
         while (g_hash_table_iter_next(&iter, (gpointer *) &key,
                                       (gpointer *) &rsc)) {
             add_recurring_op_xml(reply, rsc);
         }
     } else if (rsc) {
         add_recurring_op_xml(reply, rsc);
     }
     return reply;
 }
 
 void
 process_lrmd_message(pcmk__client_t *client, uint32_t id, xmlNode *request)
 {
     int rc = pcmk_ok;
     int call_id = 0;
     const char *op = crm_element_value(request, F_LRMD_OPERATION);
     int do_reply = 0;
     int do_notify = 0;
     xmlNode *reply = NULL;
 
     /* Certain IPC commands may be done only by privileged users (i.e. root or
      * hacluster), because they would otherwise provide a means of bypassing
      * ACLs.
      */
     bool allowed = pcmk_is_set(client->flags, pcmk__client_privileged);
 
     crm_trace("Processing %s operation from %s", op, client->id);
     crm_element_value_int(request, F_LRMD_CALLID, &call_id);
 
     if (pcmk__str_eq(op, CRM_OP_IPC_FWD, pcmk__str_none)) {
 #ifdef PCMK__COMPILE_REMOTE
         if (allowed) {
             ipc_proxy_forward_client(client, request);
         } else {
             rc = -EACCES;
         }
 #else
         rc = -EPROTONOSUPPORT;
 #endif
         do_reply = 1;
     } else if (pcmk__str_eq(op, CRM_OP_REGISTER, pcmk__str_none)) {
         rc = process_lrmd_signon(client, request, call_id, &reply);
         do_reply = 1;
     } else if (pcmk__str_eq(op, LRMD_OP_RSC_REG, pcmk__str_none)) {
         if (allowed) {
             rc = process_lrmd_rsc_register(client, id, request);
             do_notify = 1;
         } else {
             rc = -EACCES;
         }
         do_reply = 1;
     } else if (pcmk__str_eq(op, LRMD_OP_RSC_INFO, pcmk__str_none)) {
         if (allowed) {
             reply = process_lrmd_get_rsc_info(request, call_id);
         } else {
             rc = -EACCES;
         }
         do_reply = 1;
     } else if (pcmk__str_eq(op, LRMD_OP_RSC_UNREG, pcmk__str_none)) {
         if (allowed) {
             rc = process_lrmd_rsc_unregister(client, id, request);
             /* don't notify anyone about failed un-registers */
             if (rc == pcmk_ok || rc == -EINPROGRESS) {
                 do_notify = 1;
             }
         } else {
             rc = -EACCES;
         }
         do_reply = 1;
     } else if (pcmk__str_eq(op, LRMD_OP_RSC_EXEC, pcmk__str_none)) {
         if (allowed) {
             rc = process_lrmd_rsc_exec(client, id, request);
         } else {
             rc = -EACCES;
         }
         do_reply = 1;
     } else if (pcmk__str_eq(op, LRMD_OP_RSC_CANCEL, pcmk__str_none)) {
         if (allowed) {
             rc = process_lrmd_rsc_cancel(client, id, request);
         } else {
             rc = -EACCES;
         }
         do_reply = 1;
     } else if (pcmk__str_eq(op, LRMD_OP_POKE, pcmk__str_none)) {
         do_notify = 1;
         do_reply = 1;
     } else if (pcmk__str_eq(op, LRMD_OP_CHECK, pcmk__str_none)) {
         if (allowed) {
             xmlNode *data = get_message_xml(request, F_LRMD_CALLDATA);
 
             CRM_LOG_ASSERT(data != NULL);
             pcmk__valid_sbd_timeout(crm_element_value(data, F_LRMD_WATCHDOG));
         } else {
             rc = -EACCES;
         }
     } else if (pcmk__str_eq(op, LRMD_OP_ALERT_EXEC, pcmk__str_none)) {
         if (allowed) {
             rc = process_lrmd_alert_exec(client, id, request);
         } else {
             rc = -EACCES;
         }
         do_reply = 1;
     } else if (pcmk__str_eq(op, LRMD_OP_GET_RECURRING, pcmk__str_none)) {
         if (allowed) {
             reply = process_lrmd_get_recurring(request, call_id);
         } else {
             rc = -EACCES;
         }
         do_reply = 1;
     } else {
         rc = -EOPNOTSUPP;
         do_reply = 1;
         crm_err("Unknown IPC request '%s' from client %s",
                 op, pcmk__client_name(client));
     }
 
     if (rc == -EACCES) {
         crm_warn("Rejecting IPC request '%s' from unprivileged client %s",
                  op, pcmk__client_name(client));
     }
 
     crm_debug("Processed %s operation from %s: rc=%d, reply=%d, notify=%d",
               op, client->id, rc, do_reply, do_notify);
 
     if (do_reply) {
         int send_rc = pcmk_rc_ok;
 
         if (reply == NULL) {
             reply = create_lrmd_reply(__func__, rc, call_id);
         }
         send_rc = lrmd_server_send_reply(client, id, reply);
         free_xml(reply);
         if (send_rc != pcmk_rc_ok) {
             crm_warn("Reply to client %s failed: %s " CRM_XS " rc=%d",
                      pcmk__client_name(client), pcmk_rc_str(send_rc), send_rc);
         }
     }
 
     if (do_notify) {
         send_generic_notify(rc, request);
     }
 }
diff --git a/include/crm/common/strings_internal.h b/include/crm/common/strings_internal.h
index af28da4b77..922887a174 100644
--- a/include/crm/common/strings_internal.h
+++ b/include/crm/common/strings_internal.h
@@ -1,107 +1,108 @@
 /*
  * Copyright 2015-2021 the Pacemaker project contributors
  *
  * The version control history for this file may have further details.
  *
  * This source code is licensed under the GNU Lesser General Public License
  * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
  */
 
 #ifndef PCMK__STRINGS_INTERNAL__H
 #define PCMK__STRINGS_INTERNAL__H
 
 #include <stdbool.h>            // bool
 
 #include <glib.h>               // guint, GList, GHashTable
 
 /* internal constants for generic string functions (from strings.c) */
 
 #define PCMK__PARSE_INT_DEFAULT -1
 #define PCMK__PARSE_DBL_DEFAULT -1.0
 
 /* internal generic string functions (from strings.c) */
 
 enum pcmk__str_flags {
     pcmk__str_none          = 0,
     pcmk__str_casei         = 1 << 0,
     pcmk__str_null_matches  = 1 << 1,
     pcmk__str_regex         = 1 << 2
 };
 
 int pcmk__scan_double(const char *text, double *result,
                       const char *default_text, char **end_text);
 int pcmk__guint_from_hash(GHashTable *table, const char *key, guint default_val,
                           guint *result);
 bool pcmk__starts_with(const char *str, const char *prefix);
 bool pcmk__ends_with(const char *s, const char *match);
 bool pcmk__ends_with_ext(const char *s, const char *match);
 void pcmk__add_separated_word(char **list, size_t *len, const char *word,
                               const char *separator);
 int pcmk__compress(const char *data, unsigned int length, unsigned int max,
                    char **result, unsigned int *result_len);
 
 int pcmk__parse_ll_range(const char *srcstring, long long *start, long long *end);
 
 GHashTable *pcmk__strkey_table(GDestroyNotify key_destroy_func,
                                GDestroyNotify value_destroy_func);
 GHashTable *pcmk__strikey_table(GDestroyNotify key_destroy_func,
                                 GDestroyNotify value_destroy_func);
+GHashTable *pcmk__str_table_dup(GHashTable *old_table);
 
 gboolean pcmk__str_in_list(GList *lst, const gchar *s);
 
 bool pcmk__strcase_any_of(const char *s, ...) G_GNUC_NULL_TERMINATED;
 bool pcmk__str_any_of(const char *s, ...) G_GNUC_NULL_TERMINATED;
 bool pcmk__char_in_any_str(int ch, ...) G_GNUC_NULL_TERMINATED;
 
 int pcmk__strcmp(const char *s1, const char *s2, uint32_t flags);
 
 static inline bool
 pcmk__str_eq(const char *s1, const char *s2, uint32_t flags)
 {
     return pcmk__strcmp(s1, s2, flags) == 0;
 }
 
 // Like pcmk__add_separated_word() but using a space as separator
 static inline void
 pcmk__add_word(char **list, size_t *len, const char *word)
 {
     return pcmk__add_separated_word(list, len, word, " ");
 }
 
 /* Correctly displaying singular or plural is complicated; consider "1 node has"
  * vs. "2 nodes have". A flexible solution is to pluralize entire strings, e.g.
  *
  * if (a == 1) {
  *     crm_info("singular message"):
  * } else {
  *     crm_info("plural message");
  * }
  *
  * though even that's not sufficient for all languages besides English (if we
  * ever desire to do translations of output and log messages). But the following
  * convenience macros are "good enough" and more concise for many cases.
  */
 
 /* Example:
  * crm_info("Found %d %s", nentries,
  *          pcmk__plural_alt(nentries, "entry", "entries"));
  */
 #define pcmk__plural_alt(i, s1, s2) (((i) == 1)? (s1) : (s2))
 
 // Example: crm_info("Found %d node%s", nnodes, pcmk__plural_s(nnodes));
 #define pcmk__plural_s(i) pcmk__plural_alt(i, "", "s")
 
 static inline int
 pcmk__str_empty(const char *s)
 {
     return (s == NULL) || (s[0] == '\0');
 }
 
 // note this returns const not allocated
 static inline const char *
 pcmk__btoa(bool condition)
 {
     return condition? "true" : "false";
 }
 
 #endif /* PCMK__STRINGS_INTERNAL__H */
diff --git a/include/crm/common/util.h b/include/crm/common/util.h
index 2e43fdd09b..4bf5299e67 100644
--- a/include/crm/common/util.h
+++ b/include/crm/common/util.h
@@ -1,180 +1,178 @@
 /*
  * 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 Lesser General Public License
  * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
  */
 
 #ifndef CRM_COMMON_UTIL__H
 #  define CRM_COMMON_UTIL__H
 
 #ifdef __cplusplus
 extern "C" {
 #endif
 
 /**
  * \file
  * \brief Utility functions
  * \ingroup core
  */
 
 #  include <sys/types.h>    // gid_t, mode_t, size_t, time_t, uid_t
 #  include <stdlib.h>
 #  include <stdbool.h>
 #  include <stdint.h>       // uint32_t
 #  include <limits.h>
 #  include <signal.h>
 #  include <glib.h>
 
 #  include <libxml/tree.h>
 
 #  include <crm/lrmd.h>
 #  include <crm/common/acl.h>
 #  include <crm/common/agents.h>
 #  include <crm/common/results.h>
 
 #  define ONLINESTATUS  "online"  // Status of an online client
 #  define OFFLINESTATUS "offline" // Status of an offline client
 
 /* public Pacemaker Remote functions (from remote.c) */
 int crm_default_remote_port(void);
 
 /* public string functions (from strings.c) */
 gboolean crm_is_true(const char *s);
 int crm_str_to_boolean(const char *s, int *ret);
 long long crm_parse_ll(const char *text, const char *default_text);
 int crm_parse_int(const char *text, const char *default_text);
 long long crm_get_msec(const char *input);
 char * crm_strip_trailing_newline(char *str);
 char *crm_strdup_printf(char const *format, ...) __attribute__ ((__format__ (__printf__, 1, 2)));
 int pcmk_numeric_strcasecmp(const char *s1, const char *s2);
 
 static inline char *
 crm_itoa(int an_int)
 {
     return crm_strdup_printf("%d", an_int);
 }
 
 static inline char *
 crm_ftoa(double a_float)
 {
     return crm_strdup_printf("%f", a_float);
 }
 
 static inline char *
 crm_ttoa(time_t epoch_time)
 {
     return crm_strdup_printf("%lld", (long long) epoch_time);
 }
 
-GHashTable *crm_str_table_dup(GHashTable *old_table);
-
 #  define crm_atoi(text, default_text) crm_parse_int(text, default_text)
 
 /* public I/O functions (from io.c) */
 void crm_build_path(const char *path_c, mode_t mode);
 
 guint crm_parse_interval_spec(const char *input);
 int char2score(const char *score);
 char *score2char(int score);
 char *score2char_stack(int score, char *buf, size_t len);
 
 /* public operation functions (from operations.c) */
 gboolean parse_op_key(const char *key, char **rsc_id, char **op_type,
                       guint *interval_ms);
 gboolean decode_transition_key(const char *key, char **uuid, int *transition_id,
                                int *action_id, int *target_rc);
 gboolean decode_transition_magic(const char *magic, char **uuid,
                                  int *transition_id, int *action_id,
                                  int *op_status, int *op_rc, int *target_rc);
 int rsc_op_expected_rc(lrmd_event_data_t *event);
 gboolean did_rsc_op_fail(lrmd_event_data_t *event, int target_rc);
 bool crm_op_needs_metadata(const char *rsc_class, const char *op);
 xmlNode *crm_create_op_xml(xmlNode *parent, const char *prefix,
                            const char *task, const char *interval_spec,
                            const char *timeout);
 #define CRM_DEFAULT_OP_TIMEOUT_S "20s"
 
 int compare_version(const char *version1, const char *version2);
 
 /* coverity[+kill] */
 void crm_abort(const char *file, const char *function, int line,
                const char *condition, gboolean do_core, gboolean do_fork);
 
 /*!
  * \brief Check whether any of specified flags are set in a flag group
  *
  * \param[in] flag_group        The flag group being examined
  * \param[in] flags_to_check    Which flags in flag_group should be checked
  *
  * \return true if \p flags_to_check is nonzero and any of its flags are set in
  *         \p flag_group, or false otherwise
  */
 static inline bool
 pcmk_any_flags_set(uint64_t flag_group, uint64_t flags_to_check)
 {
     return (flag_group & flags_to_check) != 0;
 }
 
 /*!
  * \brief Check whether all of specified flags are set in a flag group
  *
  * \param[in] flag_group        The flag group being examined
  * \param[in] flags_to_check    Which flags in flag_group should be checked
  *
  * \return true if \p flags_to_check is zero or all of its flags are set in
  *         \p flag_group, or false otherwise
  */
 static inline bool
 pcmk_all_flags_set(uint64_t flag_group, uint64_t flags_to_check)
 {
     return (flag_group & flags_to_check) == flags_to_check;
 }
 
 /*!
  * \brief Convenience alias for pcmk_all_flags_set(), to check single flag
  */
 #define pcmk_is_set(g, f)   pcmk_all_flags_set((g), (f))
 
 static inline guint
 crm_hash_table_size(GHashTable * hashtable)
 {
     if (hashtable == NULL) {
         return 0;
     }
     return g_hash_table_size(hashtable);
 }
 
 char *crm_meta_name(const char *field);
 const char *crm_meta_value(GHashTable * hash, const char *field);
 
 char *crm_md5sum(const char *buffer);
 
 char *crm_generate_uuid(void);
 
 // This belongs in ipc.h but is here for backward compatibility
 bool crm_is_daemon_name(const char *name);
 
 int crm_user_lookup(const char *name, uid_t * uid, gid_t * gid);
 int pcmk_daemon_user(uid_t *uid, gid_t *gid);
 
 #ifdef HAVE_GNUTLS_GNUTLS_H
 void crm_gnutls_global_init(void);
 #endif
 
 char *pcmk_hostname(void);
 
 bool pcmk_str_is_infinity(const char *s);
 bool pcmk_str_is_minus_infinity(const char *s);
 
 #if !defined(PCMK_ALLOW_DEPRECATED) || (PCMK_ALLOW_DEPRECATED == 1)
 #include <crm/common/util_compat.h>
 #endif
 
 #ifdef __cplusplus
 }
 #endif
 
 #endif
diff --git a/include/crm/common/util_compat.h b/include/crm/common/util_compat.h
index 17ba2dc213..791c49f93b 100644
--- a/include/crm/common/util_compat.h
+++ b/include/crm/common/util_compat.h
@@ -1,103 +1,106 @@
 /*
  * 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 Lesser General Public License
  * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
  */
 
 #ifndef PCMK__COMMON_UTIL_COMPAT__H
 #  define PCMK__COMMON_UTIL_COMPAT__H
 
 #ifdef __cplusplus
 extern "C" {
 #endif
 
 /**
  * \file
  * \brief Deprecated Pacemaker utilities
  * \ingroup core
  * \deprecated Do not include this header directly. The utilities in this
  *             header, and the header itself, will be removed in a future
  *             release.
  */
 
 //! \deprecated Use crm_parse_interval_spec() instead
 #define crm_get_interval crm_parse_interval_spec
 
 //! \deprecated Use !pcmk_is_set() or !pcmk_all_flags_set() instead
 static inline gboolean
 is_not_set(long long word, long long bit)
 {
     return ((word & bit) == 0);
 }
 
 //! \deprecated Use pcmk_is_set() or pcmk_all_flags_set() instead
 static inline gboolean
 is_set(long long word, long long bit)
 {
     return ((word & bit) == bit);
 }
 
 //! \deprecated Use pcmk_any_flags_set() instead
 static inline gboolean
 is_set_any(long long word, long long bit)
 {
     return ((word & bit) != 0);
 }
 
 //! \deprecated Use strcmp() or strcasecmp() instead
 gboolean crm_str_eq(const char *a, const char *b, gboolean use_case);
 
 //! \deprecated Use strcmp() instead
 gboolean safe_str_neq(const char *a, const char *b);
 
 //! \deprecated Use strcasecmp() instead
 #define safe_str_eq(a, b) crm_str_eq(a, b, FALSE)
 
 //! \deprecated Use snprintf() instead
 char *crm_itoa_stack(int an_int, char *buf, size_t len);
 
 //! \deprecated Use sscanf() instead
 int pcmk_scan_nvpair(const char *input, char **name, char **value);
 
 //! \deprecated Use a standard printf()-style function instead
 char *pcmk_format_nvpair(const char *name, const char *value,
                          const char *units);
 
 //! \deprecated Use a standard printf()-style function instead
 char *pcmk_format_named_time(const char *name, time_t epoch_time);
 
 //! \deprecated Use g_str_hash() instead
 guint g_str_hash_traditional(gconstpointer v);
 
 //! \deprecated Use g_str_hash() instead
 #define crm_str_hash g_str_hash_traditional
 
 //! \deprecated Do not use Pacemaker for generic string comparison
 gboolean crm_strcase_equal(gconstpointer a, gconstpointer b);
 
 //! \deprecated Do not use Pacemaker for generic string manipulation
 guint crm_strcase_hash(gconstpointer v);
 
 //! \deprecated Use g_hash_table_new_full() instead
 static inline GHashTable *
 crm_str_table_new(void)
 {
     return g_hash_table_new_full(crm_str_hash, g_str_equal, free, free);
 }
 
 //! \deprecated Use g_hash_table_new_full() instead
 static inline GHashTable *
 crm_strcase_table_new(void)
 {
     return g_hash_table_new_full(crm_strcase_hash, crm_strcase_equal,
                                  free, free);
 }
 
+//! \deprecated Do not use Pacemaker for generic hash table manipulation
+GHashTable *crm_str_table_dup(GHashTable *old_table);
+
 #ifdef __cplusplus
 }
 #endif
 
 #endif // PCMK__COMMON_UTIL_COMPAT__H
diff --git a/lib/common/alerts.c b/lib/common/alerts.c
index 31e625fc2d..fb03284115 100644
--- a/lib/common/alerts.c
+++ b/lib/common/alerts.c
@@ -1,257 +1,257 @@
 /*
- * Copyright 2015-2020 the Pacemaker project contributors
+ * Copyright 2015-2021 the Pacemaker project contributors
  *
  * The version control history for this file may have further details.
  *
  * This source code is licensed under the GNU Lesser General Public License
  * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
  */
 
 #include <crm_internal.h>
 #include <crm/crm.h>
 #include <crm/lrmd.h>
 #include <crm/msg_xml.h>
 #include <crm/common/alerts_internal.h>
 #include <crm/common/xml_internal.h>
 #include <crm/cib/internal.h> /* for F_CIB_UPDATE_RESULT */
 
 /*
  * to allow script compatibility we can have more than one
  * set of environment variables
  */
 const char *pcmk__alert_keys[PCMK__ALERT_INTERNAL_KEY_MAX][3] =
 {
     [PCMK__alert_key_recipient] = {
         "CRM_notify_recipient",         "CRM_alert_recipient",          NULL
     },
     [PCMK__alert_key_node] = {
         "CRM_notify_node",              "CRM_alert_node",               NULL
     },
     [PCMK__alert_key_nodeid] = {
         "CRM_notify_nodeid",            "CRM_alert_nodeid",             NULL
     },
     [PCMK__alert_key_rsc] = {
         "CRM_notify_rsc",               "CRM_alert_rsc",                NULL
     },
     [PCMK__alert_key_task] = {
         "CRM_notify_task",              "CRM_alert_task",               NULL
     },
     [PCMK__alert_key_interval] = {
         "CRM_notify_interval",          "CRM_alert_interval",           NULL
     },
     [PCMK__alert_key_desc] = {
         "CRM_notify_desc",              "CRM_alert_desc",               NULL
     },
     [PCMK__alert_key_status] = {
         "CRM_notify_status",            "CRM_alert_status",             NULL
     },
     [PCMK__alert_key_target_rc] = {
         "CRM_notify_target_rc",         "CRM_alert_target_rc",          NULL
     },
     [PCMK__alert_key_rc] = {
         "CRM_notify_rc",                "CRM_alert_rc",                 NULL
     },
     [PCMK__alert_key_kind] = {
         "CRM_notify_kind",              "CRM_alert_kind",               NULL
     },
     [PCMK__alert_key_version] = {
         "CRM_notify_version",           "CRM_alert_version",            NULL
     },
     [PCMK__alert_key_node_sequence] = {
         "CRM_notify_node_sequence",     PCMK__ALERT_NODE_SEQUENCE,      NULL
     },
     [PCMK__alert_key_timestamp] = {
         "CRM_notify_timestamp",         "CRM_alert_timestamp",          NULL
     },
     [PCMK__alert_key_attribute_name] = {
         "CRM_notify_attribute_name",    "CRM_alert_attribute_name",     NULL
     },
     [PCMK__alert_key_attribute_value] = {
         "CRM_notify_attribute_value",   "CRM_alert_attribute_value",    NULL
     },
     [PCMK__alert_key_timestamp_epoch] = {
         "CRM_notify_timestamp_epoch",   "CRM_alert_timestamp_epoch",    NULL
     },
     [PCMK__alert_key_timestamp_usec] = {
         "CRM_notify_timestamp_usec",    "CRM_alert_timestamp_usec",     NULL
     },
     [PCMK__alert_key_exec_time] = {
         "CRM_notify_exec_time",         "CRM_alert_exec_time",          NULL
     }
 };
 
 /*!
  * \brief Create a new alert entry structure
  *
  * \param[in] id  ID to use
  * \param[in] path  Path to alert agent executable
  *
  * \return Pointer to newly allocated alert entry
  * \note Non-string fields will be filled in with defaults.
  *       It is the caller's responsibility to free the result,
  *       using pcmk__free_alert().
  */
 pcmk__alert_t *
 pcmk__alert_new(const char *id, const char *path)
 {
     pcmk__alert_t *entry = calloc(1, sizeof(pcmk__alert_t));
 
     CRM_ASSERT(entry && id && path);
     entry->id = strdup(id);
     entry->path = strdup(path);
     entry->timeout = PCMK__ALERT_DEFAULT_TIMEOUT_MS;
     entry->flags = pcmk__alert_default;
     return entry;
 }
 
 void
 pcmk__free_alert(pcmk__alert_t *entry)
 {
     if (entry) {
         free(entry->id);
         free(entry->path);
         free(entry->tstamp_format);
         free(entry->recipient);
 
         g_strfreev(entry->select_attribute_name);
         if (entry->envvars) {
             g_hash_table_destroy(entry->envvars);
         }
         free(entry);
     }
 }
 
 /*!
  * \internal
  * \brief Duplicate an alert entry
  *
  * \param[in] entry  Alert entry to duplicate
  *
  * \return Duplicate of alert entry
  */
 pcmk__alert_t *
 pcmk__dup_alert(pcmk__alert_t *entry)
 {
     pcmk__alert_t *new_entry = pcmk__alert_new(entry->id, entry->path);
 
     new_entry->timeout = entry->timeout;
     new_entry->flags = entry->flags;
-    new_entry->envvars = crm_str_table_dup(entry->envvars);
+    new_entry->envvars = pcmk__str_table_dup(entry->envvars);
     if (entry->tstamp_format) {
         new_entry->tstamp_format = strdup(entry->tstamp_format);
     }
     if (entry->recipient) {
         new_entry->recipient = strdup(entry->recipient);
     }
     if (entry->select_attribute_name) {
         new_entry->select_attribute_name = g_strdupv(entry->select_attribute_name);
     }
     return new_entry;
 }
 
 void
 pcmk__add_alert_key(GHashTable *table, enum pcmk__alert_keys_e name,
                     const char *value)
 {
     for (const char **key = pcmk__alert_keys[name]; *key; key++) {
         crm_trace("Inserting alert key %s = '%s'", *key, value);
         if (value) {
             g_hash_table_insert(table, strdup(*key), strdup(value));
         } else {
             g_hash_table_remove(table, *key);
         }
     }
 }
 
 void
 pcmk__add_alert_key_int(GHashTable *table, enum pcmk__alert_keys_e name,
                         int value)
 {
     for (const char **key = pcmk__alert_keys[name]; *key; key++) {
         crm_trace("Inserting alert key %s = %d", *key, value);
         g_hash_table_insert(table, strdup(*key), crm_itoa(value));
     }
 }
 
 #define XPATH_PATCHSET1_DIFF "//" F_CIB_UPDATE_RESULT "//" XML_TAG_DIFF_ADDED
 
 #define XPATH_PATCHSET1_CRMCONFIG XPATH_PATCHSET1_DIFF "//" XML_CIB_TAG_CRMCONFIG
 #define XPATH_PATCHSET1_ALERTS    XPATH_PATCHSET1_DIFF "//" XML_CIB_TAG_ALERTS
 
 #define XPATH_PATCHSET1_EITHER \
     XPATH_PATCHSET1_CRMCONFIG " | " XPATH_PATCHSET1_ALERTS
 
 #define XPATH_CONFIG "/" XML_TAG_CIB "/" XML_CIB_TAG_CONFIGURATION
 
 #define XPATH_CRMCONFIG XPATH_CONFIG "/" XML_CIB_TAG_CRMCONFIG "/"
 #define XPATH_ALERTS    XPATH_CONFIG "/" XML_CIB_TAG_ALERTS
 
 /*!
  * \internal
  * \brief Check whether a CIB update affects alerts
  *
  * \param[in] msg     XML containing CIB update
  * \param[in] config  Whether to check for crmconfig change as well
  *
  * \return TRUE if update affects alerts, FALSE otherwise
  */
 bool
 pcmk__alert_in_patchset(xmlNode *msg, bool config)
 {
     int rc = -1;
     int format= 1;
     xmlNode *patchset = get_message_xml(msg, F_CIB_UPDATE_RESULT);
     xmlNode *change = NULL;
     xmlXPathObject *xpathObj = NULL;
 
     CRM_CHECK(msg != NULL, return FALSE);
 
     crm_element_value_int(msg, F_CIB_RC, &rc);
     if (rc < pcmk_ok) {
         crm_trace("Ignore failed CIB update: %s (%d)", pcmk_strerror(rc), rc);
         return FALSE;
     }
 
     crm_element_value_int(patchset, "format", &format);
     if (format == 1) {
         const char *diff = (config? XPATH_PATCHSET1_EITHER : XPATH_PATCHSET1_ALERTS);
 
         if ((xpathObj = xpath_search(msg, diff)) != NULL) {
             freeXpathObject(xpathObj);
             return TRUE;
         }
     } else if (format == 2) {
         for (change = pcmk__xml_first_child(patchset); change != NULL;
              change = pcmk__xml_next(change)) {
             const char *xpath = crm_element_value(change, XML_DIFF_PATH);
 
             if (xpath == NULL) {
                 continue;
             }
 
             if ((!config || !strstr(xpath, XPATH_CRMCONFIG))
                 && !strstr(xpath, XPATH_ALERTS)) {
 
                 /* this is not a change to an existing section ... */
 
                 xmlNode *section = NULL;
                 const char *name = NULL;
 
                 if ((strcmp(xpath, XPATH_CONFIG) != 0) ||
                     ((section = pcmk__xml_first_child(change)) == NULL) ||
                     ((name = crm_element_name(section)) == NULL) ||
                     (strcmp(name, XML_CIB_TAG_ALERTS) != 0)) {
 
                     /* ... nor is it a newly added alerts section */
                     continue;
                 }
             }
 
             return TRUE;
         }
 
     } else {
         crm_warn("Unknown patch format: %d", format);
     }
     return FALSE;
 }
diff --git a/lib/common/strings.c b/lib/common/strings.c
index 1de849e340..ee02c21ea6 100644
--- a/lib/common/strings.c
+++ b/lib/common/strings.c
@@ -1,1170 +1,1186 @@
 /*
  * 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 Lesser General Public License
  * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
  */
 
 #include <crm_internal.h>
 
 #ifndef _GNU_SOURCE
 #  define _GNU_SOURCE
 #endif
 
 #include <regex.h>
 #include <stdio.h>
 #include <string.h>
 #include <stdlib.h>
 #include <ctype.h>
 #include <float.h>  // DBL_MIN
 #include <limits.h>
 #include <math.h>   // fabs()
 #include <bzlib.h>
 #include <sys/types.h>
 
 /*!
  * \internal
  * \brief Scan a long long integer from a string
  *
  * \param[in]  text      String to scan
  * \param[out] result    If not NULL, where to store scanned value
  * \param[out] end_text  If not NULL, where to store pointer to just after value
  *
  * \return Standard Pacemaker return code (\c pcmk_rc_ok on success,
  *         \c EINVAL on failed string conversion due to invalid input,
  *         or \c EOVERFLOW on arithmetic overflow)
  * \note Sets \c errno on error
  */
 static int
 scan_ll(const char *text, long long *result, char **end_text)
 {
     long long local_result = PCMK__PARSE_INT_DEFAULT;
     char *local_end_text = NULL;
     int rc = pcmk_rc_ok;
 
     errno = 0;
     if (text != NULL) {
         local_result = strtoll(text, &local_end_text, 10);
         if (errno == ERANGE) {
             rc = EOVERFLOW;
             crm_warn("Integer parsed from %s was clipped to %lld",
                      text, local_result);
 
         } else if (errno != 0) {
             rc = errno;
             local_result = PCMK__PARSE_INT_DEFAULT;
             crm_warn("Could not parse integer from %s (using %d instead): %s",
                     text, PCMK__PARSE_INT_DEFAULT, pcmk_rc_str(rc));
 
         } else if (local_end_text == text) {
             rc = EINVAL;
             local_result = PCMK__PARSE_INT_DEFAULT;
             crm_warn("Could not parse integer from %s (using %d instead): "
                     "No digits found", text, PCMK__PARSE_INT_DEFAULT);
         }
 
         if ((end_text == NULL) && !pcmk__str_empty(local_end_text)) {
             crm_warn("Characters left over after parsing '%s': '%s'",
                      text, local_end_text);
         }
         errno = rc;
     }
     if (end_text != NULL) {
         *end_text = local_end_text;
     }
     if (result != NULL) {
         *result = local_result;
     }
     return rc;
 }
 
 /*!
  * \brief Parse a long long integer value from a string
  *
  * \param[in] text          The string to parse
  * \param[in] default_text  Default string to parse if text is NULL
  *
  * \return Parsed value on success, PCMK__PARSE_INT_DEFAULT (and set
  *         errno) on error
  */
 long long
 crm_parse_ll(const char *text, const char *default_text)
 {
     long long result;
 
     if (text == NULL) {
         text = default_text;
         if (text == NULL) {
             crm_err("No default conversion value supplied");
             errno = EINVAL;
             return PCMK__PARSE_INT_DEFAULT;
         }
     }
     scan_ll(text, &result, NULL);
     return result;
 }
 
 /*!
  * \brief Parse an integer value from a string
  *
  * \param[in] text          The string to parse
  * \param[in] default_text  Default string to parse if text is NULL
  *
  * \return Parsed value on success, INT_MIN or INT_MAX (and set errno to
  *         ERANGE) if parsed value is out of integer range, otherwise
  *         PCMK__PARSE_INT_DEFAULT (and set errno)
  */
 int
 crm_parse_int(const char *text, const char *default_text)
 {
     long long result = crm_parse_ll(text, default_text);
 
     if (result < INT_MIN) {
         // If errno is ERANGE, crm_parse_ll() has already logged a message
         if (errno != ERANGE) {
             crm_err("Conversion of %s was clipped: %lld", text, result);
             errno = ERANGE;
         }
         return INT_MIN;
 
     } else if (result > INT_MAX) {
         // If errno is ERANGE, crm_parse_ll() has already logged a message
         if (errno != ERANGE) {
             crm_err("Conversion of %s was clipped: %lld", text, result);
             errno = ERANGE;
         }
         return INT_MAX;
     }
 
     return (int) result;
 }
 
 /*!
  * \internal
  * \brief Scan a double-precision floating-point value from a string
  *
  * \param[in]      text         The string to parse
  * \param[out]     result       Parsed value on success, or
  *                              \c PCMK__PARSE_DBL_DEFAULT on error
  * \param[in]      default_text Default string to parse if \p text is
  *                              \c NULL
  * \param[out]     end_text     If not \c NULL, where to store a pointer
  *                              to the position immediately after the
  *                              value
  *
  * \return Standard Pacemaker return code (\c pcmk_rc_ok on success,
  *         \c EINVAL on failed string conversion due to invalid input,
  *         \c EOVERFLOW on arithmetic overflow, \c pcmk_rc_underflow
  *         on arithmetic underflow, or \c errno from \c strtod() on
  *         other parse errors)
  */
 int
 pcmk__scan_double(const char *text, double *result, const char *default_text,
                   char **end_text)
 {
     int rc = pcmk_rc_ok;
     char *local_end_text = NULL;
 
     CRM_ASSERT(result != NULL);
     *result = PCMK__PARSE_DBL_DEFAULT;
 
     text = (text != NULL) ? text : default_text;
 
     if (text == NULL) {
         rc = EINVAL;
         crm_debug("No text and no default conversion value supplied");
 
     } else {
         errno = 0;
         *result = strtod(text, &local_end_text);
 
         if (errno == ERANGE) {
             /*
              * Overflow: strtod() returns +/- HUGE_VAL and sets errno to
              *           ERANGE
              *
              * Underflow: strtod() returns "a value whose magnitude is
              *            no greater than the smallest normalized
              *            positive" double. Whether ERANGE is set is
              *            implementation-defined.
              */
             const char *over_under;
 
             if (fabs(*result) > DBL_MIN) {
                 rc = EOVERFLOW;
                 over_under = "over";
             } else {
                 rc = pcmk_rc_underflow;
                 over_under = "under";
             }
 
             crm_debug("Floating-point value parsed from '%s' would %sflow "
                       "(using %g instead)", text, over_under, *result);
 
         } else if (errno != 0) {
             rc = errno;
             // strtod() set *result = 0 on parse failure
             *result = PCMK__PARSE_DBL_DEFAULT;
 
             crm_debug("Could not parse floating-point value from '%s' (using "
                       "%.1f instead): %s", text, PCMK__PARSE_DBL_DEFAULT,
                       pcmk_rc_str(rc));
 
         } else if (local_end_text == text) {
             // errno == 0, but nothing was parsed
             rc = EINVAL;
             *result = PCMK__PARSE_DBL_DEFAULT;
 
             crm_debug("Could not parse floating-point value from '%s' (using "
                       "%.1f instead): No digits found", text,
                       PCMK__PARSE_DBL_DEFAULT);
 
         } else if (fabs(*result) <= DBL_MIN) {
             /*
              * errno == 0 and text was parsed, but value might have
              * underflowed.
              *
              * ERANGE might not be set for underflow. Check magnitude
              * of *result, but also make sure the input number is not
              * actually zero (0 <= DBL_MIN is not underflow).
              *
              * This check must come last. A parse failure in strtod()
              * also sets *result == 0, so a parse failure would match
              * this test condition prematurely.
              */
             for (const char *p = text; p != local_end_text; p++) {
                 if (strchr("0.eE", *p) == NULL) {
                     rc = pcmk_rc_underflow;
                     crm_debug("Floating-point value parsed from '%s' would "
                               "underflow (using %g instead)", text, *result);
                     break;
                 }
             }
 
         } else {
             crm_trace("Floating-point value parsed successfully from "
                       "'%s': %g", text, *result);
         }
 
         if ((end_text == NULL) && !pcmk__str_empty(local_end_text)) {
             crm_debug("Characters left over after parsing '%s': '%s'",
                       text, local_end_text);
         }
     }
 
     if (end_text != NULL) {
         *end_text = local_end_text;
     }
 
     return rc;
 }
 
 /*!
  * \internal
  * \brief Parse a guint from a string stored in a hash table
  *
  * \param[in]  table        Hash table to search
  * \param[in]  key          Hash table key to use to retrieve string
  * \param[in]  default_val  What to use if key has no entry in table
  * \param[out] result       If not NULL, where to store parsed integer
  *
  * \return Standard Pacemaker return code
  */
 int
 pcmk__guint_from_hash(GHashTable *table, const char *key, guint default_val,
                       guint *result)
 {
     const char *value;
     long long value_ll;
 
     CRM_CHECK((table != NULL) && (key != NULL), return EINVAL);
 
     value = g_hash_table_lookup(table, key);
     if (value == NULL) {
         if (result != NULL) {
             *result = default_val;
         }
         return pcmk_rc_ok;
     }
 
     errno = 0;
     value_ll = crm_parse_ll(value, NULL);
     if (errno != 0) {
         return errno; // Message already logged
     }
     if ((value_ll < 0) || (value_ll > G_MAXUINT)) {
         crm_warn("Could not parse non-negative integer from %s", value);
         return ERANGE;
     }
 
     if (result != NULL) {
         *result = (guint) value_ll;
     }
     return pcmk_rc_ok;
 }
 
 #ifndef NUMCHARS
 #  define	NUMCHARS	"0123456789."
 #endif
 
 #ifndef WHITESPACE
 #  define	WHITESPACE	" \t\n\r\f"
 #endif
 
 /*!
  * \brief Parse a time+units string and return milliseconds equivalent
  *
  * \param[in] input  String with a number and units (optionally with whitespace
  *                   before and/or after the number)
  *
  * \return Milliseconds corresponding to string expression, or
  *         PCMK__PARSE_INT_DEFAULT on error
  */
 long long
 crm_get_msec(const char *input)
 {
     const char *num_start = NULL;
     const char *units;
     long long multiplier = 1000;
     long long divisor = 1;
     long long msec = PCMK__PARSE_INT_DEFAULT;
     size_t num_len = 0;
     char *end_text = NULL;
 
     if (input == NULL) {
         return PCMK__PARSE_INT_DEFAULT;
     }
 
     num_start = input + strspn(input, WHITESPACE);
     num_len = strspn(num_start, NUMCHARS);
     if (num_len < 1) {
         return PCMK__PARSE_INT_DEFAULT;
     }
     units = num_start + num_len;
     units += strspn(units, WHITESPACE);
 
     if (!strncasecmp(units, "ms", 2) || !strncasecmp(units, "msec", 4)) {
         multiplier = 1;
         divisor = 1;
     } else if (!strncasecmp(units, "us", 2) || !strncasecmp(units, "usec", 4)) {
         multiplier = 1;
         divisor = 1000;
     } else if (!strncasecmp(units, "s", 1) || !strncasecmp(units, "sec", 3)) {
         multiplier = 1000;
         divisor = 1;
     } else if (!strncasecmp(units, "m", 1) || !strncasecmp(units, "min", 3)) {
         multiplier = 60 * 1000;
         divisor = 1;
     } else if (!strncasecmp(units, "h", 1) || !strncasecmp(units, "hr", 2)) {
         multiplier = 60 * 60 * 1000;
         divisor = 1;
     } else if ((*units != '\0') && (*units != '\n') && (*units != '\r')) {
         return PCMK__PARSE_INT_DEFAULT;
     }
 
     scan_ll(num_start, &msec, &end_text);
     if (msec > (LLONG_MAX / multiplier)) {
         // Arithmetics overflow while multiplier/divisor mutually exclusive
         return LLONG_MAX;
     }
     msec *= multiplier;
     msec /= divisor;
     return msec;
 }
 
 gboolean
 crm_is_true(const char *s)
 {
     gboolean ret = FALSE;
 
     if (s != NULL) {
         crm_str_to_boolean(s, &ret);
     }
     return ret;
 }
 
 int
 crm_str_to_boolean(const char *s, int *ret)
 {
     if (s == NULL) {
         return -1;
 
     } else if (strcasecmp(s, "true") == 0
                || strcasecmp(s, "on") == 0
                || strcasecmp(s, "yes") == 0 || strcasecmp(s, "y") == 0 || strcasecmp(s, "1") == 0) {
         *ret = TRUE;
         return 1;
 
     } else if (strcasecmp(s, "false") == 0
                || strcasecmp(s, "off") == 0
                || strcasecmp(s, "no") == 0 || strcasecmp(s, "n") == 0 || strcasecmp(s, "0") == 0) {
         *ret = FALSE;
         return 1;
     }
     return -1;
 }
 
 char *
 crm_strip_trailing_newline(char *str)
 {
     int len;
 
     if (str == NULL) {
         return str;
     }
 
     for (len = strlen(str) - 1; len >= 0 && str[len] == '\n'; len--) {
         str[len] = '\0';
     }
 
     return str;
 }
 
 /*!
  * \brief Check whether a string starts with a certain sequence
  *
  * \param[in] str    String to check
  * \param[in] prefix Sequence to match against beginning of \p str
  *
  * \return \c true if \p str begins with match, \c false otherwise
  * \note This is equivalent to !strncmp(s, prefix, strlen(prefix))
  *       but is likely less efficient when prefix is a string literal
  *       if the compiler optimizes away the strlen() at compile time,
  *       and more efficient otherwise.
  */
 bool
 pcmk__starts_with(const char *str, const char *prefix)
 {
     const char *s = str;
     const char *p = prefix;
 
     if (!s || !p) {
         return false;
     }
     while (*s && *p) {
         if (*s++ != *p++) {
             return false;
         }
     }
     return (*p == 0);
 }
 
 static inline bool
 ends_with(const char *s, const char *match, bool as_extension)
 {
     if (pcmk__str_empty(match)) {
         return true;
     } else if (s == NULL) {
         return false;
     } else {
         size_t slen, mlen;
 
         /* Besides as_extension, we could also check
            !strchr(&match[1], match[0]) but that would be inefficient.
          */
         if (as_extension) {
             s = strrchr(s, match[0]);
             return (s == NULL)? false : !strcmp(s, match);
         }
 
         mlen = strlen(match);
         slen = strlen(s);
         return ((slen >= mlen) && !strcmp(s + slen - mlen, match));
     }
 }
 
 /*!
  * \internal
  * \brief Check whether a string ends with a certain sequence
  *
  * \param[in] s      String to check
  * \param[in] match  Sequence to match against end of \p s
  *
  * \return \c true if \p s ends case-sensitively with match, \c false otherwise
  * \note pcmk__ends_with_ext() can be used if the first character of match
  *       does not recur in match.
  */
 bool
 pcmk__ends_with(const char *s, const char *match)
 {
     return ends_with(s, match, false);
 }
 
 /*!
  * \internal
  * \brief Check whether a string ends with a certain "extension"
  *
  * \param[in] s      String to check
  * \param[in] match  Extension to match against end of \p s, that is,
  *                   its first character must not occur anywhere
  *                   in the rest of that very sequence (example: file
  *                   extension where the last dot is its delimiter,
  *                   e.g., ".html"); incorrect results may be
  *                   returned otherwise.
  *
  * \return \c true if \p s ends (verbatim, i.e., case sensitively)
  *         with "extension" designated as \p match (including empty
  *         string), \c false otherwise
  *
  * \note Main incentive to prefer this function over \c pcmk__ends_with()
  *       where possible is the efficiency (at the cost of added
  *       restriction on \p match as stated; the complexity class
  *       remains the same, though: BigO(M+N) vs. BigO(M+2N)).
  */
 bool
 pcmk__ends_with_ext(const char *s, const char *match)
 {
     return ends_with(s, match, true);
 }
 
 /*!
  * \internal
  * \brief Create a hash of a string suitable for use with GHashTable
  *
  * \param[in] v  String to hash
  *
  * \return A hash of \p v compatible with g_str_hash() before glib 2.28
  * \note glib changed their hash implementation:
  *
  * https://gitlab.gnome.org/GNOME/glib/commit/354d655ba8a54b754cb5a3efb42767327775696c
  *
  * Note that the new g_str_hash is presumably a *better* hash (it's actually
  * a correct implementation of DJB's hash), but we need to preserve existing
  * behaviour, because the hash key ultimately determines the "sort" order
  * when iterating through GHashTables, which affects allocation of scores to
  * clone instances when iterating through rsc->allowed_nodes.  It (somehow)
  * also appears to have some minor impact on the ordering of a few
  * pseudo_event IDs in the transition graph.
  */
 static guint
 pcmk__str_hash(gconstpointer v)
 {
     const signed char *p;
     guint32 h = 0;
 
     for (p = v; *p != '\0'; p++)
         h = (h << 5) - h + *p;
 
     return h;
 }
 
 /*!
  * \internal
  * \brief Create a hash table with case-sensitive strings as keys
  *
  * \param[in] key_destroy_func    Function to free a key
  * \param[in] value_destroy_func  Function to free a value
  *
  * \return Newly allocated hash table
  * \note It is the caller's responsibility to free the result, using
  *       g_hash_table_destroy().
  */
 GHashTable *
 pcmk__strkey_table(GDestroyNotify key_destroy_func,
                    GDestroyNotify value_destroy_func)
 {
     return g_hash_table_new_full(pcmk__str_hash, g_str_equal,
                                  key_destroy_func, value_destroy_func);
 }
 
 /* used with hash tables where case does not matter */
 static gboolean
 pcmk__strcase_equal(gconstpointer a, gconstpointer b)
 {
     return pcmk__str_eq((const char *)a, (const char *)b, pcmk__str_casei);
 }
 
 static guint
 pcmk__strcase_hash(gconstpointer v)
 {
     const signed char *p;
     guint32 h = 0;
 
     for (p = v; *p != '\0'; p++)
         h = (h << 5) - h + g_ascii_tolower(*p);
 
     return h;
 }
 
 /*!
  * \internal
  * \brief Create a hash table with case-insensitive strings as keys
  *
  * \param[in] key_destroy_func    Function to free a key
  * \param[in] value_destroy_func  Function to free a value
  *
  * \return Newly allocated hash table
  * \note It is the caller's responsibility to free the result, using
  *       g_hash_table_destroy().
  */
 GHashTable *
 pcmk__strikey_table(GDestroyNotify key_destroy_func,
                     GDestroyNotify value_destroy_func)
 {
     return g_hash_table_new_full(pcmk__strcase_hash, pcmk__strcase_equal,
                                  key_destroy_func, value_destroy_func);
 }
 
 static void
 copy_str_table_entry(gpointer key, gpointer value, gpointer user_data)
 {
     if (key && value && user_data) {
         g_hash_table_insert((GHashTable*)user_data, strdup(key), strdup(value));
     }
 }
 
+/*!
+ * \internal
+ * \brief Copy a hash table that uses dynamically allocated strings
+ *
+ * \param[in] old_table  Hash table to duplicate
+ *
+ * \return New hash table with copies of everything in \p old_table
+ * \note This assumes the hash table uses dynamically allocated strings -- that
+ *       is, both the key and value free functions are free().
+ */
 GHashTable *
-crm_str_table_dup(GHashTable *old_table)
+pcmk__str_table_dup(GHashTable *old_table)
 {
     GHashTable *new_table = NULL;
 
     if (old_table) {
         new_table = pcmk__strkey_table(free, free);
         g_hash_table_foreach(old_table, copy_str_table_entry, new_table);
     }
     return new_table;
 }
 
 /*!
  * \internal
  * \brief Add a word to a string list of words
  *
  * \param[in,out] list       Pointer to current string list (may not be NULL)
  * \param[in,out] len        If not NULL, must be set to length of \p list,
  *                           and will be updated to new length of \p list
  * \param[in]     word       String to add to \p list (\p list will be
  *                           unchanged if this is NULL or the empty string)
  * \param[in]     separator  String to separate words in \p list
  *                           (a space will be used if this is NULL)
  *
  * \note This dynamically reallocates \p list as needed. \p word may contain
  *       \p separator, though that would be a bad idea if the string needs to be
  *       parsed later.
  */
 void
 pcmk__add_separated_word(char **list, size_t *len, const char *word,
                          const char *separator)
 {
     size_t orig_len, new_len;
 
     CRM_ASSERT(list != NULL);
 
     if (pcmk__str_empty(word)) {
         return;
     }
 
     // Use provided length, or calculate it if not available
     orig_len = (len != NULL)? *len : ((*list == NULL)? 0 : strlen(*list));
 
     // Don't add a separator before the first word in the list
     if (orig_len == 0) {
         separator = "";
 
     // Default to space-separated
     } else if (separator == NULL) {
         separator = " ";
     }
 
     new_len = orig_len + strlen(separator) + strlen(word);
     if (len != NULL) {
         *len = new_len;
     }
 
     // +1 for null terminator
     *list = pcmk__realloc(*list, new_len + 1);
     sprintf(*list + orig_len, "%s%s", separator, word);
 }
 
 /*!
  * \internal
  * \brief Compress data
  *
  * \param[in]  data        Data to compress
  * \param[in]  length      Number of characters of data to compress
  * \param[in]  max         Maximum size of compressed data (or 0 to estimate)
  * \param[out] result      Where to store newly allocated compressed result
  * \param[out] result_len  Where to store actual compressed length of result
  *
  * \return Standard Pacemaker return code
  */
 int
 pcmk__compress(const char *data, unsigned int length, unsigned int max,
                char **result, unsigned int *result_len)
 {
     int rc;
     char *compressed = NULL;
     char *uncompressed = strdup(data);
 #ifdef CLOCK_MONOTONIC
     struct timespec after_t;
     struct timespec before_t;
 #endif
 
     if (max == 0) {
         max = (length * 1.01) + 601; // Size guaranteed to hold result
     }
 
 #ifdef CLOCK_MONOTONIC
     clock_gettime(CLOCK_MONOTONIC, &before_t);
 #endif
 
     compressed = calloc((size_t) max, sizeof(char));
     CRM_ASSERT(compressed);
 
     *result_len = max;
     rc = BZ2_bzBuffToBuffCompress(compressed, result_len, uncompressed, length,
                                   CRM_BZ2_BLOCKS, 0, CRM_BZ2_WORK);
     free(uncompressed);
     if (rc != BZ_OK) {
         crm_err("Compression of %d bytes failed: %s " CRM_XS " bzerror=%d",
                 length, bz2_strerror(rc), rc);
         free(compressed);
         return pcmk_rc_error;
     }
 
 #ifdef CLOCK_MONOTONIC
     clock_gettime(CLOCK_MONOTONIC, &after_t);
 
     crm_trace("Compressed %d bytes into %d (ratio %d:1) in %.0fms",
              length, *result_len, length / (*result_len),
              (after_t.tv_sec - before_t.tv_sec) * 1000 +
              (after_t.tv_nsec - before_t.tv_nsec) / 1e6);
 #else
     crm_trace("Compressed %d bytes into %d (ratio %d:1)",
              length, *result_len, length / (*result_len));
 #endif
 
     *result = compressed;
     return pcmk_rc_ok;
 }
 
 char *
 crm_strdup_printf(char const *format, ...)
 {
     va_list ap;
     int len = 0;
     char *string = NULL;
 
     va_start(ap, format);
     len = vasprintf (&string, format, ap);
     CRM_ASSERT(len > 0);
     va_end(ap);
     return string;
 }
 
 int
 pcmk__parse_ll_range(const char *srcstring, long long *start, long long *end)
 {
     char *remainder = NULL;
 
     CRM_ASSERT(start != NULL && end != NULL);
 
     *start = PCMK__PARSE_INT_DEFAULT;
     *end = PCMK__PARSE_INT_DEFAULT;
 
     crm_trace("Attempting to decode: [%s]", srcstring);
     if (pcmk__str_empty(srcstring) || !strcmp(srcstring, "-")) {
         return pcmk_rc_unknown_format;
     }
 
     /* String starts with a dash, so this is either a range with
      * no beginning or garbage.
      * */
     if (*srcstring == '-') {
         int rc = scan_ll(srcstring+1, end, &remainder);
 
         if (rc != pcmk_rc_ok || *remainder != '\0') {
             return pcmk_rc_unknown_format;
         } else {
             return pcmk_rc_ok;
         }
     }
 
     if (scan_ll(srcstring, start, &remainder) != pcmk_rc_ok) {
         return pcmk_rc_unknown_format;
     }
 
     if (*remainder && *remainder == '-') {
         if (*(remainder+1)) {
             char *more_remainder = NULL;
             int rc = scan_ll(remainder+1, end, &more_remainder);
 
             if (rc != pcmk_rc_ok || *more_remainder != '\0') {
                 return pcmk_rc_unknown_format;
             }
         }
     } else if (*remainder && *remainder != '-') {
         *start = PCMK__PARSE_INT_DEFAULT;
         return pcmk_rc_unknown_format;
     } else {
         /* The input string contained only one number.  Set start and end
          * to the same value and return pcmk_rc_ok.  This gives the caller
          * a way to tell this condition apart from a range with no end.
          */
         *end = *start;
     }
 
     return pcmk_rc_ok;
 }
 
 /*!
  * \internal
  * \brief Find a string in a list of strings
  *
  * Search \p lst for \p s, taking case into account.  As a special case,
  * if "*" is the only element of \p lst, the search is successful.
  *
  * \param[in]  lst  List to search
  * \param[in]  s    String to search for
  *
  * \return \c TRUE if \p s is in \p lst, or \c FALSE otherwise
  */
 gboolean
 pcmk__str_in_list(GList *lst, const gchar *s)
 {
     if (lst == NULL) {
         return FALSE;
     }
 
     if (strcmp(lst->data, "*") == 0 && lst->next == NULL) {
         return TRUE;
     }
 
     return g_list_find_custom(lst, s, (GCompareFunc) strcmp) != NULL;
 }
 
 static bool
 str_any_of(bool casei, const char *s, va_list args)
 {
     bool rc = false;
 
     if (s != NULL) {
         while (1) {
             const char *ele = va_arg(args, const char *);
 
             if (ele == NULL) {
                 break;
             } else if (pcmk__str_eq(s, ele,
                                     casei? pcmk__str_casei : pcmk__str_none)) {
                 rc = true;
                 break;
             }
         }
     }
     return rc;
 }
 
 /*!
  * \internal
  * \brief Is a string a member of a list of strings?
  *
  * \param[in]  s    String to search for in \p ...
  * \param[in]  ...  Strings to compare \p s against.  The final string
  *                  must be NULL.
  *
  * \note The comparison is done case-insensitively.  The function name is
  *       meant to be reminiscent of strcasecmp.
  *
  * \return \c true if \p s is in \p ..., or \c false otherwise
  */
 bool
 pcmk__strcase_any_of(const char *s, ...)
 {
     va_list ap;
     bool rc;
 
     va_start(ap, s);
     rc = str_any_of(true, s, ap);
     va_end(ap);
     return rc;
 }
 
 /*!
  * \internal
  * \brief Is a string a member of a list of strings?
  *
  * \param[in]  s    String to search for in \p ...
  * \param[in]  ...  Strings to compare \p s against.  The final string
  *                  must be NULL.
  *
  * \note The comparison is done taking case into account.
  *
  * \return \c true if \p s is in \p ..., or \c false otherwise
  */
 bool
 pcmk__str_any_of(const char *s, ...)
 {
     va_list ap;
     bool rc;
 
     va_start(ap, s);
     rc = str_any_of(false, s, ap);
     va_end(ap);
     return rc;
 }
 
 /*!
  * \internal
  * \brief Check whether a character is in any of a list of strings
  *
  * \param[in]   ch      Character (ASCII) to search for
  * \param[in]   ...     Strings to search. Final argument must be
  *                      \c NULL.
  *
  * \return  \c true if any of \p ... contain \p ch, \c false otherwise
  * \note    \p ... must contain at least one argument (\c NULL).
  */
 bool
 pcmk__char_in_any_str(int ch, ...)
 {
     bool rc = false;
     va_list ap;
 
     /*
      * Passing a char to va_start() can generate compiler warnings,
      * so ch is declared as an int.
      */
     va_start(ap, ch);
 
     while (1) {
         const char *ele = va_arg(ap, const char *);
 
         if (ele == NULL) {
             break;
         } else if (strchr(ele, ch) != NULL) {
             rc = true;
             break;
         }
     }
 
     va_end(ap);
     return rc;
 }
 
 /*!
  * \brief Sort strings, with numeric portions sorted numerically
  *
  * Sort two strings case-insensitively like strcasecmp(), but with any numeric
  * portions of the string sorted numerically. This is particularly useful for
  * node names (for example, "node10" will sort higher than "node9" but lower
  * than "remotenode9").
  *
  * \param[in] s1  First string to compare (must not be NULL)
  * \param[in] s2  Second string to compare (must not be NULL)
  *
  * \retval -1 \p s1 comes before \p s2
  * \retval  0 \p s1 and \p s2 are equal
  * \retval  1 \p s1 comes after \p s2
  */
 int
 pcmk_numeric_strcasecmp(const char *s1, const char *s2)
 {
     while (*s1 && *s2) {
         if (isdigit(*s1) && isdigit(*s2)) {
             // If node names contain a number, sort numerically
 
             char *end1 = NULL;
             char *end2 = NULL;
             long num1 = strtol(s1, &end1, 10);
             long num2 = strtol(s2, &end2, 10);
 
             // allow ordering e.g. 007 > 7
             size_t len1 = end1 - s1;
             size_t len2 = end2 - s2;
 
             if (num1 < num2) {
                 return -1;
             } else if (num1 > num2) {
                 return 1;
             } else if (len1 < len2) {
                 return -1;
             } else if (len1 > len2) {
                 return 1;
             }
             s1 = end1;
             s2 = end2;
         } else {
             // Compare non-digits case-insensitively
             int lower1 = tolower(*s1);
             int lower2 = tolower(*s2);
 
             if (lower1 < lower2) {
                 return -1;
             } else if (lower1 > lower2) {
                 return 1;
             }
             ++s1;
             ++s2;
         }
     }
     if (!*s1 && *s2) {
         return -1;
     } else if (*s1 && !*s2) {
         return 1;
     }
     return 0;
 }
 
 /*
  * \brief Sort strings.
  *
  * This is your one-stop function for string comparison.  By default, this
  * function works like g_strcmp0.  That is, like strcmp but a NULL string
  * sorts before a non-NULL string.
  *
  * Behavior can be changed with various flags:
  *
  * - pcmk__str_regex - The second string is a regular expression that the
  *                     first string will be matched against.
  * - pcmk__str_casei - By default, comparisons are done taking case into
  *                     account.  This flag makes comparisons case-insensitive.
  *                     This can be combined with pcmk__str_regex.
  * - pcmk__str_null_matches - If one string is NULL and the other is not,
  *                            still return 0.
  *
  * \param[in] s1    First string to compare
  * \param[in] s2    Second string to compare, or a regular expression to
  *                  match if pcmk__str_regex is set
  * \param[in] flags A bitfield of pcmk__str_flags to modify operation
  *
  * \retval -1 \p s1 is NULL or comes before \p s2
  * \retval  0 \p s1 and \p s2 are equal, or \p s1 is found in \p s2 if
  *            pcmk__str_regex is set
  * \retval  1 \p s2 is NULL or \p s1 comes after \p s2, or if \p s2
  *            is an invalid regular expression, or \p s1 was not found
  *            in \p s2 if pcmk__str_regex is set.
  */
 int
 pcmk__strcmp(const char *s1, const char *s2, uint32_t flags)
 {
     /* If this flag is set, the second string is a regex. */
     if (pcmk_is_set(flags, pcmk__str_regex)) {
         regex_t *r_patt = calloc(1, sizeof(regex_t));
         int reg_flags = REG_EXTENDED | REG_NOSUB;
         int regcomp_rc = 0;
         int rc = 0;
 
         if (s1 == NULL || s2 == NULL) {
             free(r_patt);
             return 1;
         }
 
         if (pcmk_is_set(flags, pcmk__str_casei)) {
             reg_flags |= REG_ICASE;
         }
         regcomp_rc = regcomp(r_patt, s2, reg_flags);
         if (regcomp_rc != 0) {
             rc = 1;
             crm_err("Bad regex '%s' for update: %s", s2, strerror(regcomp_rc));
         } else {
             rc = regexec(r_patt, s1, 0, NULL, 0);
 
             if (rc != 0) {
                 rc = 1;
             }
         }
 
         regfree(r_patt);
         free(r_patt);
         return rc;
     }
 
     /* If the strings are the same pointer, return 0 immediately. */
     if (s1 == s2) {
         return 0;
     }
 
     /* If this flag is set, return 0 if either (or both) of the input strings
      * are NULL.  If neither one is NULL, we need to continue and compare
      * them normally.
      */
     if (pcmk_is_set(flags, pcmk__str_null_matches)) {
         if (s1 == NULL || s2 == NULL) {
             return 0;
         }
     }
 
     /* Handle the cases where one is NULL and the str_null_matches flag is not set.
      * A NULL string always sorts to the beginning.
      */
     if (s1 == NULL) {
         return -1;
     } else if (s2 == NULL) {
         return 1;
     }
 
     if (pcmk_is_set(flags, pcmk__str_casei)) {
         return strcasecmp(s1, s2);
     } else {
         return strcmp(s1, s2);
     }
 }
 
 // Deprecated functions kept only for backward API compatibility
 
 #include <crm/common/util_compat.h>
 
 gboolean
 safe_str_neq(const char *a, const char *b)
 {
     if (a == b) {
         return FALSE;
 
     } else if (a == NULL || b == NULL) {
         return TRUE;
 
     } else if (strcasecmp(a, b) == 0) {
         return FALSE;
     }
     return TRUE;
 }
 
 gboolean
 crm_str_eq(const char *a, const char *b, gboolean use_case)
 {
     if (use_case) {
         return g_strcmp0(a, b) == 0;
 
         /* TODO - Figure out which calls, if any, really need to be case independent */
     } else if (a == b) {
         return TRUE;
 
     } else if (a == NULL || b == NULL) {
         /* shouldn't be comparing NULLs */
         return FALSE;
 
     } else if (strcasecmp(a, b) == 0) {
         return TRUE;
     }
     return FALSE;
 }
 
 char *
 crm_itoa_stack(int an_int, char *buffer, size_t len)
 {
     if (buffer != NULL) {
         snprintf(buffer, len, "%d", an_int);
     }
     return buffer;
 }
 
 guint
 g_str_hash_traditional(gconstpointer v)
 {
     return pcmk__str_hash(v);
 }
 
 gboolean
 crm_strcase_equal(gconstpointer a, gconstpointer b)
 {
     return pcmk__strcase_equal(a, b);
 }
 
 guint
 crm_strcase_hash(gconstpointer v)
 {
     return pcmk__strcase_hash(v);
 }
 
+GHashTable *
+crm_str_table_dup(GHashTable *old_table)
+{
+    return pcmk__str_table_dup(old_table);
+}
+
 // End deprecated API
diff --git a/lib/lrmd/lrmd_client.c b/lib/lrmd/lrmd_client.c
index ec6aa7f3c2..8d660163fe 100644
--- a/lib/lrmd/lrmd_client.c
+++ b/lib/lrmd/lrmd_client.c
@@ -1,2103 +1,2103 @@
 /*
  * Copyright 2012-2021 the Pacemaker project contributors
  *
  * The version control history for this file may have further details.
  *
  * This source code is licensed under the GNU Lesser General Public License
  * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
  */
 
 #include <crm_internal.h>
 
 #include <unistd.h>
 #include <stdlib.h>
 #include <stdio.h>
 #include <stdint.h>         // uint32_t, uint64_t
 #include <stdarg.h>
 #include <string.h>
 #include <ctype.h>
 
 #include <sys/types.h>
 #include <sys/wait.h>
 
 #include <glib.h>
 #include <dirent.h>
 
 #include <crm/crm.h>
 #include <crm/lrmd.h>
 #include <crm/lrmd_internal.h>
 #include <crm/services.h>
 #include <crm/common/mainloop.h>
 #include <crm/common/ipc_internal.h>
 #include <crm/common/remote_internal.h>
 #include <crm/msg_xml.h>
 
 #include <crm/stonith-ng.h>
 
 #ifdef HAVE_GNUTLS_GNUTLS_H
 #  undef KEYFILE
 #  include <gnutls/gnutls.h>
 #endif
 
 #include <sys/socket.h>
 #include <netinet/in.h>
 #include <netinet/ip.h>
 #include <arpa/inet.h>
 #include <netdb.h>
 
 #define MAX_TLS_RECV_WAIT 10000
 
 CRM_TRACE_INIT_DATA(lrmd);
 
 static int lrmd_api_disconnect(lrmd_t * lrmd);
 static int lrmd_api_is_connected(lrmd_t * lrmd);
 
 /* IPC proxy functions */
 int lrmd_internal_proxy_send(lrmd_t * lrmd, xmlNode *msg);
 static void lrmd_internal_proxy_dispatch(lrmd_t *lrmd, xmlNode *msg);
 void lrmd_internal_set_proxy_callback(lrmd_t * lrmd, void *userdata, void (*callback)(lrmd_t *lrmd, void *userdata, xmlNode *msg));
 
 #ifdef HAVE_GNUTLS_GNUTLS_H
 #  define LRMD_CLIENT_HANDSHAKE_TIMEOUT 5000    /* 5 seconds */
 gnutls_psk_client_credentials_t psk_cred_s;
 int lrmd_tls_set_key(gnutls_datum_t * key);
 static void lrmd_tls_disconnect(lrmd_t * lrmd);
 static int global_remote_msg_id = 0;
 static void lrmd_tls_connection_destroy(gpointer userdata);
 #endif
 
 typedef struct lrmd_private_s {
     uint64_t type;
     char *token;
     mainloop_io_t *source;
 
     /* IPC parameters */
     crm_ipc_t *ipc;
 
     pcmk__remote_t *remote;
 
     /* Extra TLS parameters */
     char *remote_nodename;
 #ifdef HAVE_GNUTLS_GNUTLS_H
     char *server;
     int port;
     gnutls_psk_client_credentials_t psk_cred_c;
 
     /* while the async connection is occurring, this is the id
      * of the connection timeout timer. */
     int async_timer;
     int sock;
     /* since tls requires a round trip across the network for a
      * request/reply, there are times where we just want to be able
      * to send a request from the client and not wait around (or even care
      * about) what the reply is. */
     int expected_late_replies;
     GList *pending_notify;
     crm_trigger_t *process_notify;
 #endif
 
     lrmd_event_callback callback;
 
     /* Internal IPC proxy msg passing for remote guests */
     void (*proxy_callback)(lrmd_t *lrmd, void *userdata, xmlNode *msg);
     void *proxy_callback_userdata;
     char *peer_version;
 } lrmd_private_t;
 
 static lrmd_list_t *
 lrmd_list_add(lrmd_list_t * head, const char *value)
 {
     lrmd_list_t *p, *end;
 
     p = calloc(1, sizeof(lrmd_list_t));
     p->val = strdup(value);
 
     end = head;
     while (end && end->next) {
         end = end->next;
     }
 
     if (end) {
         end->next = p;
     } else {
         head = p;
     }
 
     return head;
 }
 
 void
 lrmd_list_freeall(lrmd_list_t * head)
 {
     lrmd_list_t *p;
 
     while (head) {
         char *val = (char *)head->val;
 
         p = head->next;
         free(val);
         free(head);
         head = p;
     }
 }
 
 lrmd_key_value_t *
 lrmd_key_value_add(lrmd_key_value_t * head, const char *key, const char *value)
 {
     lrmd_key_value_t *p, *end;
 
     p = calloc(1, sizeof(lrmd_key_value_t));
     p->key = strdup(key);
     p->value = strdup(value);
 
     end = head;
     while (end && end->next) {
         end = end->next;
     }
 
     if (end) {
         end->next = p;
     } else {
         head = p;
     }
 
     return head;
 }
 
 void
 lrmd_key_value_freeall(lrmd_key_value_t * head)
 {
     lrmd_key_value_t *p;
 
     while (head) {
         p = head->next;
         free(head->key);
         free(head->value);
         free(head);
         head = p;
     }
 }
 
 /*!
  * Create a new lrmd_event_data_t object
  *
  * \param[in] rsc_id       ID of resource involved in event
  * \param[in] task         Action name
  * \param[in] interval_ms  Action interval
  *
  * \return Newly allocated and initialized lrmd_event_data_t
  * \note This functions asserts on memory errors, so the return value is
  *       guaranteed to be non-NULL. The caller is responsible for freeing the
  *       result with lrmd_free_event().
  */
 lrmd_event_data_t *
 lrmd_new_event(const char *rsc_id, const char *task, guint interval_ms)
 {
     lrmd_event_data_t *event = calloc(1, sizeof(lrmd_event_data_t));
 
     CRM_ASSERT(event != NULL);
     if (rsc_id != NULL) {
         event->rsc_id = strdup(rsc_id);
         CRM_ASSERT(event->rsc_id != NULL);
     }
     if (task != NULL) {
         event->op_type = strdup(task);
         CRM_ASSERT(event->op_type != NULL);
     }
     event->interval_ms = interval_ms;
     return event;
 }
 
 lrmd_event_data_t *
 lrmd_copy_event(lrmd_event_data_t * event)
 {
     lrmd_event_data_t *copy = NULL;
 
     copy = calloc(1, sizeof(lrmd_event_data_t));
 
     /* This will get all the int values.
      * we just have to be careful not to leave any
      * dangling pointers to strings. */
     memcpy(copy, event, sizeof(lrmd_event_data_t));
 
     copy->rsc_id = event->rsc_id ? strdup(event->rsc_id) : NULL;
     copy->op_type = event->op_type ? strdup(event->op_type) : NULL;
     copy->user_data = event->user_data ? strdup(event->user_data) : NULL;
     copy->output = event->output ? strdup(event->output) : NULL;
     copy->exit_reason = event->exit_reason ? strdup(event->exit_reason) : NULL;
     copy->remote_nodename = event->remote_nodename ? strdup(event->remote_nodename) : NULL;
-    copy->params = crm_str_table_dup(event->params);
+    copy->params = pcmk__str_table_dup(event->params);
 
     return copy;
 }
 
 void
 lrmd_free_event(lrmd_event_data_t * event)
 {
     if (!event) {
         return;
     }
 
     /* free gives me grief if i try to cast */
     free((char *)event->rsc_id);
     free((char *)event->op_type);
     free((char *)event->user_data);
     free((char *)event->output);
     free((char *)event->exit_reason);
     free((char *)event->remote_nodename);
     if (event->params) {
         g_hash_table_destroy(event->params);
     }
     free(event);
 }
 
 static int
 lrmd_dispatch_internal(lrmd_t * lrmd, xmlNode * msg)
 {
     const char *type;
     const char *proxy_session = crm_element_value(msg, F_LRMD_IPC_SESSION);
     lrmd_private_t *native = lrmd->lrmd_private;
     lrmd_event_data_t event = { 0, };
 
     if (proxy_session != NULL) {
         /* this is proxy business */
         lrmd_internal_proxy_dispatch(lrmd, msg);
         return 1;
     } else if (!native->callback) {
         /* no callback set */
         crm_trace("notify event received but client has not set callback");
         return 1;
     }
 
     event.remote_nodename = native->remote_nodename;
     type = crm_element_value(msg, F_LRMD_OPERATION);
     crm_element_value_int(msg, F_LRMD_CALLID, &event.call_id);
     event.rsc_id = crm_element_value(msg, F_LRMD_RSC_ID);
 
     if (pcmk__str_eq(type, LRMD_OP_RSC_REG, pcmk__str_none)) {
         event.type = lrmd_event_register;
     } else if (pcmk__str_eq(type, LRMD_OP_RSC_UNREG, pcmk__str_none)) {
         event.type = lrmd_event_unregister;
     } else if (pcmk__str_eq(type, LRMD_OP_RSC_EXEC, pcmk__str_none)) {
         time_t epoch = 0;
 
         crm_element_value_int(msg, F_LRMD_TIMEOUT, &event.timeout);
         crm_element_value_ms(msg, F_LRMD_RSC_INTERVAL, &event.interval_ms);
         crm_element_value_int(msg, F_LRMD_RSC_START_DELAY, &event.start_delay);
         crm_element_value_int(msg, F_LRMD_EXEC_RC, (int *)&event.rc);
         crm_element_value_int(msg, F_LRMD_OP_STATUS, &event.op_status);
         crm_element_value_int(msg, F_LRMD_RSC_DELETED, &event.rsc_deleted);
 
         crm_element_value_epoch(msg, F_LRMD_RSC_RUN_TIME, &epoch);
         event.t_run = (unsigned int) epoch;
 
         crm_element_value_epoch(msg, F_LRMD_RSC_RCCHANGE_TIME, &epoch);
         event.t_rcchange = (unsigned int) epoch;
 
         crm_element_value_int(msg, F_LRMD_RSC_EXEC_TIME, (int *)&event.exec_time);
         crm_element_value_int(msg, F_LRMD_RSC_QUEUE_TIME, (int *)&event.queue_time);
 
         event.op_type = crm_element_value(msg, F_LRMD_RSC_ACTION);
         event.user_data = crm_element_value(msg, F_LRMD_RSC_USERDATA_STR);
         event.output = crm_element_value(msg, F_LRMD_RSC_OUTPUT);
         event.exit_reason = crm_element_value(msg, F_LRMD_RSC_EXIT_REASON);
         event.type = lrmd_event_exec_complete;
 
         event.params = xml2list(msg);
     } else if (pcmk__str_eq(type, LRMD_OP_NEW_CLIENT, pcmk__str_none)) {
         event.type = lrmd_event_new_client;
     } else if (pcmk__str_eq(type, LRMD_OP_POKE, pcmk__str_none)) {
         event.type = lrmd_event_poke;
     } else {
         return 1;
     }
 
     crm_trace("op %s notify event received", type);
     native->callback(&event);
 
     if (event.params) {
         g_hash_table_destroy(event.params);
     }
     return 1;
 }
 
 static int
 lrmd_ipc_dispatch(const char *buffer, ssize_t length, gpointer userdata)
 {
     lrmd_t *lrmd = userdata;
     lrmd_private_t *native = lrmd->lrmd_private;
     xmlNode *msg;
     int rc;
 
     if (!native->callback) {
         /* no callback set */
         return 1;
     }
 
     msg = string2xml(buffer);
     rc = lrmd_dispatch_internal(lrmd, msg);
     free_xml(msg);
     return rc;
 }
 
 #ifdef HAVE_GNUTLS_GNUTLS_H
 static void
 lrmd_free_xml(gpointer userdata)
 {
     free_xml((xmlNode *) userdata);
 }
 
 static int
 lrmd_tls_connected(lrmd_t * lrmd)
 {
     lrmd_private_t *native = lrmd->lrmd_private;
 
     if (native->remote->tls_session) {
         return TRUE;
     }
 
     return FALSE;
 }
 
 static int
 lrmd_tls_dispatch(gpointer userdata)
 {
     lrmd_t *lrmd = userdata;
     lrmd_private_t *native = lrmd->lrmd_private;
     xmlNode *xml = NULL;
     int rc = pcmk_rc_ok;
 
     if (lrmd_tls_connected(lrmd) == FALSE) {
         crm_trace("TLS dispatch triggered after disconnect");
         return 0;
     }
 
     crm_trace("TLS dispatch triggered");
 
     /* First check if there are any pending notifies to process that came
      * while we were waiting for replies earlier. */
     if (native->pending_notify) {
         GList *iter = NULL;
 
         crm_trace("Processing pending notifies");
         for (iter = native->pending_notify; iter; iter = iter->next) {
             lrmd_dispatch_internal(lrmd, iter->data);
         }
         g_list_free_full(native->pending_notify, lrmd_free_xml);
         native->pending_notify = NULL;
     }
 
     /* Next read the current buffer and see if there are any messages to handle. */
     switch (pcmk__remote_ready(native->remote, 0)) {
         case pcmk_rc_ok:
             rc = pcmk__read_remote_message(native->remote, -1);
             xml = pcmk__remote_message_xml(native->remote);
             break;
         case ETIME:
             // Nothing to read, check if a full message is already in buffer
             xml = pcmk__remote_message_xml(native->remote);
             break;
         default:
             rc = ENOTCONN;
             break;
     }
     while (xml) {
         const char *msg_type = crm_element_value(xml, F_LRMD_REMOTE_MSG_TYPE);
         if (pcmk__str_eq(msg_type, "notify", pcmk__str_casei)) {
             lrmd_dispatch_internal(lrmd, xml);
         } else if (pcmk__str_eq(msg_type, "reply", pcmk__str_casei)) {
             if (native->expected_late_replies > 0) {
                 native->expected_late_replies--;
             } else {
                 int reply_id = 0;
                 crm_element_value_int(xml, F_LRMD_CALLID, &reply_id);
                 /* if this happens, we want to know about it */
                 crm_err("Got outdated Pacemaker Remote reply %d", reply_id);
             }
         }
         free_xml(xml);
         xml = pcmk__remote_message_xml(native->remote);
     }
 
     if (rc == ENOTCONN) {
         crm_info("Lost %s executor connection while reading data",
                  (native->remote_nodename? native->remote_nodename : "local"));
         lrmd_tls_disconnect(lrmd);
         return 0;
     }
     return 1;
 }
 #endif
 
 /* Not used with mainloop */
 int
 lrmd_poll(lrmd_t * lrmd, int timeout)
 {
     lrmd_private_t *native = lrmd->lrmd_private;
 
     switch (native->type) {
         case pcmk__client_ipc:
             return crm_ipc_ready(native->ipc);
 
 #ifdef HAVE_GNUTLS_GNUTLS_H
         case pcmk__client_tls:
             if (native->pending_notify) {
                 return 1;
             } else {
                 int rc = pcmk__remote_ready(native->remote, 0);
 
                 switch (rc) {
                     case pcmk_rc_ok:
                         return 1;
                     case ETIME:
                         return 0;
                     default:
                         return pcmk_rc2legacy(rc);
                 }
             }
 #endif
         default:
             crm_err("Unsupported connection type: %d", native->type);
     }
 
     return 0;
 }
 
 /* Not used with mainloop */
 bool
 lrmd_dispatch(lrmd_t * lrmd)
 {
     lrmd_private_t *private = NULL;
 
     CRM_ASSERT(lrmd != NULL);
 
     private = lrmd->lrmd_private;
     switch (private->type) {
         case pcmk__client_ipc:
             while (crm_ipc_ready(private->ipc)) {
                 if (crm_ipc_read(private->ipc) > 0) {
                     const char *msg = crm_ipc_buffer(private->ipc);
 
                     lrmd_ipc_dispatch(msg, strlen(msg), lrmd);
                 }
             }
             break;
 #ifdef HAVE_GNUTLS_GNUTLS_H
         case pcmk__client_tls:
             lrmd_tls_dispatch(lrmd);
             break;
 #endif
         default:
             crm_err("Unsupported connection type: %d", private->type);
     }
 
     if (lrmd_api_is_connected(lrmd) == FALSE) {
         crm_err("Connection closed");
         return FALSE;
     }
 
     return TRUE;
 }
 
 static xmlNode *
 lrmd_create_op(const char *token, const char *op, xmlNode *data, int timeout,
                enum lrmd_call_options options)
 {
     xmlNode *op_msg = create_xml_node(NULL, "lrmd_command");
 
     CRM_CHECK(op_msg != NULL, return NULL);
     CRM_CHECK(token != NULL, return NULL);
 
     crm_xml_add(op_msg, F_XML_TAGNAME, "lrmd_command");
     crm_xml_add(op_msg, F_TYPE, T_LRMD);
     crm_xml_add(op_msg, F_LRMD_CALLBACK_TOKEN, token);
     crm_xml_add(op_msg, F_LRMD_OPERATION, op);
     crm_xml_add_int(op_msg, F_LRMD_TIMEOUT, timeout);
     crm_xml_add_int(op_msg, F_LRMD_CALLOPTS, options);
 
     if (data != NULL) {
         add_message_xml(op_msg, F_LRMD_CALLDATA, data);
     }
 
     crm_trace("Created executor %s command with call options %.8lx (%d)",
               op, (long)options, options);
     return op_msg;
 }
 
 static void
 lrmd_ipc_connection_destroy(gpointer userdata)
 {
     lrmd_t *lrmd = userdata;
     lrmd_private_t *native = lrmd->lrmd_private;
 
     crm_info("IPC connection destroyed");
 
     /* Prevent these from being cleaned up in lrmd_api_disconnect() */
     native->ipc = NULL;
     native->source = NULL;
 
     if (native->callback) {
         lrmd_event_data_t event = { 0, };
         event.type = lrmd_event_disconnect;
         event.remote_nodename = native->remote_nodename;
         native->callback(&event);
     }
 }
 
 #ifdef HAVE_GNUTLS_GNUTLS_H
 static void
 lrmd_tls_connection_destroy(gpointer userdata)
 {
     lrmd_t *lrmd = userdata;
     lrmd_private_t *native = lrmd->lrmd_private;
 
     crm_info("TLS connection destroyed");
 
     if (native->remote->tls_session) {
         gnutls_bye(*native->remote->tls_session, GNUTLS_SHUT_RDWR);
         gnutls_deinit(*native->remote->tls_session);
         gnutls_free(native->remote->tls_session);
     }
     if (native->psk_cred_c) {
         gnutls_psk_free_client_credentials(native->psk_cred_c);
     }
     if (native->sock) {
         close(native->sock);
     }
     if (native->process_notify) {
         mainloop_destroy_trigger(native->process_notify);
         native->process_notify = NULL;
     }
     if (native->pending_notify) {
         g_list_free_full(native->pending_notify, lrmd_free_xml);
         native->pending_notify = NULL;
     }
 
     free(native->remote->buffer);
     native->remote->buffer = NULL;
     native->source = 0;
     native->sock = 0;
     native->psk_cred_c = NULL;
     native->remote->tls_session = NULL;
     native->sock = 0;
 
     if (native->callback) {
         lrmd_event_data_t event = { 0, };
         event.remote_nodename = native->remote_nodename;
         event.type = lrmd_event_disconnect;
         native->callback(&event);
     }
     return;
 }
 
 // \return Standard Pacemaker return code
 int
 lrmd_tls_send_msg(pcmk__remote_t *session, xmlNode *msg, uint32_t id,
                   const char *msg_type)
 {
     crm_xml_add_int(msg, F_LRMD_REMOTE_MSG_ID, id);
     crm_xml_add(msg, F_LRMD_REMOTE_MSG_TYPE, msg_type);
     return pcmk__remote_send_xml(session, msg);
 }
 
 static xmlNode *
 lrmd_tls_recv_reply(lrmd_t * lrmd, int total_timeout, int expected_reply_id, int *disconnected)
 {
     lrmd_private_t *native = lrmd->lrmd_private;
     xmlNode *xml = NULL;
     time_t start = time(NULL);
     const char *msg_type = NULL;
     int reply_id = 0;
     int remaining_timeout = 0;
 
     /* A timeout of 0 here makes no sense.  We have to wait a period of time
      * for the response to come back.  If -1 or 0, default to 10 seconds. */
     if (total_timeout <= 0 || total_timeout > MAX_TLS_RECV_WAIT) {
         total_timeout = MAX_TLS_RECV_WAIT;
     }
 
     while (!xml) {
 
         xml = pcmk__remote_message_xml(native->remote);
         if (!xml) {
             /* read some more off the tls buffer if we still have time left. */
             if (remaining_timeout) {
                 remaining_timeout = total_timeout - ((time(NULL) - start) * 1000);
             } else {
                 remaining_timeout = total_timeout;
             }
             if (remaining_timeout <= 0) {
                 crm_err("Never received the expected reply during the timeout period, disconnecting.");
                 *disconnected = TRUE;
                 return NULL;
             }
 
             if (pcmk__read_remote_message(native->remote,
                                           remaining_timeout) == ENOTCONN) {
                 *disconnected = TRUE;
             } else {
                 *disconnected = FALSE;
             }
             xml = pcmk__remote_message_xml(native->remote);
             if (!xml) {
                 crm_err("Unable to receive expected reply, disconnecting.");
                 *disconnected = TRUE;
                 return NULL;
             } else if (*disconnected) {
                 return NULL;
             }
         }
 
         CRM_ASSERT(xml != NULL);
 
         crm_element_value_int(xml, F_LRMD_REMOTE_MSG_ID, &reply_id);
         msg_type = crm_element_value(xml, F_LRMD_REMOTE_MSG_TYPE);
 
         if (!msg_type) {
             crm_err("Empty msg type received while waiting for reply");
             free_xml(xml);
             xml = NULL;
         } else if (pcmk__str_eq(msg_type, "notify", pcmk__str_casei)) {
             /* got a notify while waiting for reply, trigger the notify to be processed later */
             crm_info("queueing notify");
             native->pending_notify = g_list_append(native->pending_notify, xml);
             if (native->process_notify) {
                 crm_info("notify trigger set.");
                 mainloop_set_trigger(native->process_notify);
             }
             xml = NULL;
         } else if (!pcmk__str_eq(msg_type, "reply", pcmk__str_casei)) {
             /* msg isn't a reply, make some noise */
             crm_err("Expected a reply, got %s", msg_type);
             free_xml(xml);
             xml = NULL;
         } else if (reply_id != expected_reply_id) {
             if (native->expected_late_replies > 0) {
                 native->expected_late_replies--;
             } else {
                 crm_err("Got outdated reply, expected id %d got id %d", expected_reply_id, reply_id);
             }
             free_xml(xml);
             xml = NULL;
         }
     }
 
     if (native->remote->buffer && native->process_notify) {
         mainloop_set_trigger(native->process_notify);
     }
 
     return xml;
 }
 
 static int
 lrmd_tls_send(lrmd_t * lrmd, xmlNode * msg)
 {
     int rc = 0;
     lrmd_private_t *native = lrmd->lrmd_private;
 
     global_remote_msg_id++;
     if (global_remote_msg_id <= 0) {
         global_remote_msg_id = 1;
     }
 
     rc = lrmd_tls_send_msg(native->remote, msg, global_remote_msg_id, "request");
     if (rc != pcmk_rc_ok) {
         crm_err("Disconnecting because TLS message could not be sent to "
                 "Pacemaker Remote: %s", pcmk_rc_str(rc));
         lrmd_tls_disconnect(lrmd);
         return -ENOTCONN;
     }
     return pcmk_ok;
 }
 
 static int
 lrmd_tls_send_recv(lrmd_t * lrmd, xmlNode * msg, int timeout, xmlNode ** reply)
 {
     int rc = 0;
     int disconnected = 0;
     xmlNode *xml = NULL;
 
     if (lrmd_tls_connected(lrmd) == FALSE) {
         return -1;
     }
 
     rc = lrmd_tls_send(lrmd, msg);
     if (rc < 0) {
         return rc;
     }
 
     xml = lrmd_tls_recv_reply(lrmd, timeout, global_remote_msg_id, &disconnected);
 
     if (disconnected) {
         crm_err("Pacemaker Remote disconnected while waiting for reply to request id %d",
                 global_remote_msg_id);
         lrmd_tls_disconnect(lrmd);
         rc = -ENOTCONN;
     } else if (!xml) {
         crm_err("Did not receive reply from Pacemaker Remote for request id %d (timeout %dms)",
                 global_remote_msg_id, timeout);
         rc = -ECOMM;
     }
 
     if (reply) {
         *reply = xml;
     } else {
         free_xml(xml);
     }
 
     return rc;
 }
 #endif
 
 static int
 lrmd_send_xml(lrmd_t * lrmd, xmlNode * msg, int timeout, xmlNode ** reply)
 {
     int rc = -1;
     lrmd_private_t *native = lrmd->lrmd_private;
 
     switch (native->type) {
         case pcmk__client_ipc:
             rc = crm_ipc_send(native->ipc, msg, crm_ipc_client_response, timeout, reply);
             break;
 #ifdef HAVE_GNUTLS_GNUTLS_H
         case pcmk__client_tls:
             rc = lrmd_tls_send_recv(lrmd, msg, timeout, reply);
             break;
 #endif
         default:
             crm_err("Unsupported connection type: %d", native->type);
     }
 
     return rc;
 }
 
 static int
 lrmd_send_xml_no_reply(lrmd_t * lrmd, xmlNode * msg)
 {
     int rc = -1;
     lrmd_private_t *native = lrmd->lrmd_private;
 
     switch (native->type) {
         case pcmk__client_ipc:
             rc = crm_ipc_send(native->ipc, msg, crm_ipc_flags_none, 0, NULL);
             break;
 #ifdef HAVE_GNUTLS_GNUTLS_H
         case pcmk__client_tls:
             rc = lrmd_tls_send(lrmd, msg);
             if (rc == pcmk_ok) {
                 /* we don't want to wait around for the reply, but
                  * since the request/reply protocol needs to behave the same
                  * as libqb, a reply will eventually come later anyway. */
                 native->expected_late_replies++;
             }
             break;
 #endif
         default:
             crm_err("Unsupported connection type: %d", native->type);
     }
 
     return rc;
 }
 
 static int
 lrmd_api_is_connected(lrmd_t * lrmd)
 {
     lrmd_private_t *native = lrmd->lrmd_private;
 
     switch (native->type) {
         case pcmk__client_ipc:
             return crm_ipc_connected(native->ipc);
 #ifdef HAVE_GNUTLS_GNUTLS_H
         case pcmk__client_tls:
             return lrmd_tls_connected(lrmd);
 #endif
         default:
             crm_err("Unsupported connection type: %d", native->type);
     }
 
     return 0;
 }
 
 /*!
  * \internal
  * \brief Send a prepared API command to the executor
  *
  * \param[in]  lrmd          Existing connection to the executor
  * \param[in]  op            Name of API command to send
  * \param[in]  data          Command data XML to add to the sent command
  * \param[out] output_data   If expecting a reply, it will be stored here
  * \param[in]  timeout       Timeout in milliseconds (if 0, defaults to
  *                           a sensible value per the type of connection,
  *                           standard vs. pacemaker remote);
  *                           also propagated to the command XML
  * \param[in]  call_options  Call options to pass to server when sending
  * \param[in]  expect_reply  If TRUE, wait for a reply from the server;
  *                           must be TRUE for IPC (as opposed to TLS) clients
  *
  * \return pcmk_ok on success, -errno on error
  */
 static int
 lrmd_send_command(lrmd_t *lrmd, const char *op, xmlNode *data,
                   xmlNode **output_data, int timeout,
                   enum lrmd_call_options options, gboolean expect_reply)
 {
     int rc = pcmk_ok;
     lrmd_private_t *native = lrmd->lrmd_private;
     xmlNode *op_msg = NULL;
     xmlNode *op_reply = NULL;
 
     if (!lrmd_api_is_connected(lrmd)) {
         return -ENOTCONN;
     }
 
     if (op == NULL) {
         crm_err("No operation specified");
         return -EINVAL;
     }
 
     CRM_CHECK(native->token != NULL,;
         );
     crm_trace("Sending %s op to executor", op);
 
     op_msg = lrmd_create_op(native->token, op, data, timeout, options);
 
     if (op_msg == NULL) {
         return -EINVAL;
     }
 
     if (expect_reply) {
         rc = lrmd_send_xml(lrmd, op_msg, timeout, &op_reply);
     } else {
         rc = lrmd_send_xml_no_reply(lrmd, op_msg);
         goto done;
     }
 
     if (rc < 0) {
         crm_perror(LOG_ERR, "Couldn't perform %s operation (timeout=%d): %d", op, timeout, rc);
         rc = -ECOMM;
         goto done;
 
     } else if(op_reply == NULL) {
         rc = -ENOMSG;
         goto done;
     }
 
     rc = pcmk_ok;
     crm_trace("%s op reply received", op);
     if (crm_element_value_int(op_reply, F_LRMD_RC, &rc) != 0) {
         rc = -ENOMSG;
         goto done;
     }
 
     crm_log_xml_trace(op_reply, "Reply");
 
     if (output_data) {
         *output_data = op_reply;
         op_reply = NULL;        /* Prevent subsequent free */
     }
 
   done:
     if (lrmd_api_is_connected(lrmd) == FALSE) {
         crm_err("Executor disconnected");
     }
 
     free_xml(op_msg);
     free_xml(op_reply);
     return rc;
 }
 
 static int
 lrmd_api_poke_connection(lrmd_t * lrmd)
 {
     int rc;
     lrmd_private_t *native = lrmd->lrmd_private;
     xmlNode *data = create_xml_node(NULL, F_LRMD_RSC);
 
     crm_xml_add(data, F_LRMD_ORIGIN, __func__);
     rc = lrmd_send_command(lrmd, LRMD_OP_POKE, data, NULL, 0, 0,
                            (native->type == pcmk__client_ipc));
     free_xml(data);
 
     return rc < 0 ? rc : pcmk_ok;
 }
 
 int
 remote_proxy_check(lrmd_t * lrmd, GHashTable *hash)
 {
     int rc;
     const char *value;
     lrmd_private_t *native = lrmd->lrmd_private;
     xmlNode *data = create_xml_node(NULL, F_LRMD_OPERATION);
 
     crm_xml_add(data, F_LRMD_ORIGIN, __func__);
 
     value = g_hash_table_lookup(hash, "stonith-watchdog-timeout");
     crm_xml_add(data, F_LRMD_WATCHDOG, value);
 
     rc = lrmd_send_command(lrmd, LRMD_OP_CHECK, data, NULL, 0, 0,
                            (native->type == pcmk__client_ipc));
     free_xml(data);
 
     return rc < 0 ? rc : pcmk_ok;
 }
 
 static int
 lrmd_handshake(lrmd_t * lrmd, const char *name)
 {
     int rc = pcmk_ok;
     lrmd_private_t *native = lrmd->lrmd_private;
     xmlNode *reply = NULL;
     xmlNode *hello = create_xml_node(NULL, "lrmd_command");
 
     crm_xml_add(hello, F_TYPE, T_LRMD);
     crm_xml_add(hello, F_LRMD_OPERATION, CRM_OP_REGISTER);
     crm_xml_add(hello, F_LRMD_CLIENTNAME, name);
     crm_xml_add(hello, F_LRMD_PROTOCOL_VERSION, LRMD_PROTOCOL_VERSION);
 
     /* advertise that we are a proxy provider */
     if (native->proxy_callback) {
         crm_xml_add(hello, F_LRMD_IS_IPC_PROVIDER, "true");
     }
 
     rc = lrmd_send_xml(lrmd, hello, -1, &reply);
 
     if (rc < 0) {
         crm_perror(LOG_DEBUG, "Couldn't complete registration with the executor API: %d", rc);
         rc = -ECOMM;
     } else if (reply == NULL) {
         crm_err("Did not receive registration reply");
         rc = -EPROTO;
     } else {
         const char *version = crm_element_value(reply, F_LRMD_PROTOCOL_VERSION);
         const char *msg_type = crm_element_value(reply, F_LRMD_OPERATION);
         const char *tmp_ticket = crm_element_value(reply, F_LRMD_CLIENTID);
 
         crm_element_value_int(reply, F_LRMD_RC, &rc);
 
         if (rc == -EPROTO) {
             crm_err("Executor protocol version mismatch between client (%s) and server (%s)",
                 LRMD_PROTOCOL_VERSION, version);
             crm_log_xml_err(reply, "Protocol Error");
 
         } else if (!pcmk__str_eq(msg_type, CRM_OP_REGISTER, pcmk__str_casei)) {
             crm_err("Invalid registration message: %s", msg_type);
             crm_log_xml_err(reply, "Bad reply");
             rc = -EPROTO;
         } else if (tmp_ticket == NULL) {
             crm_err("No registration token provided");
             crm_log_xml_err(reply, "Bad reply");
             rc = -EPROTO;
         } else {
             crm_trace("Obtained registration token: %s", tmp_ticket);
             native->token = strdup(tmp_ticket);
             native->peer_version = strdup(version?version:"1.0"); /* Included since 1.1 */
             rc = pcmk_ok;
         }
     }
 
     free_xml(reply);
     free_xml(hello);
 
     if (rc != pcmk_ok) {
         lrmd_api_disconnect(lrmd);
     }
     return rc;
 }
 
 static int
 lrmd_ipc_connect(lrmd_t * lrmd, int *fd)
 {
     int rc = pcmk_ok;
     lrmd_private_t *native = lrmd->lrmd_private;
 
     struct ipc_client_callbacks lrmd_callbacks = {
         .dispatch = lrmd_ipc_dispatch,
         .destroy = lrmd_ipc_connection_destroy
     };
 
     crm_info("Connecting to executor");
 
     if (fd) {
         /* No mainloop */
         native->ipc = crm_ipc_new(CRM_SYSTEM_LRMD, 0);
         if (native->ipc && crm_ipc_connect(native->ipc)) {
             *fd = crm_ipc_get_fd(native->ipc);
         } else if (native->ipc) {
             crm_perror(LOG_ERR, "Connection to executor failed");
             rc = -ENOTCONN;
         }
     } else {
         native->source = mainloop_add_ipc_client(CRM_SYSTEM_LRMD, G_PRIORITY_HIGH, 0, lrmd, &lrmd_callbacks);
         native->ipc = mainloop_get_ipc_client(native->source);
     }
 
     if (native->ipc == NULL) {
         crm_debug("Could not connect to the executor API");
         rc = -ENOTCONN;
     }
 
     return rc;
 }
 
 #ifdef HAVE_GNUTLS_GNUTLS_H
 static void
 copy_gnutls_datum(gnutls_datum_t *dest, gnutls_datum_t *source)
 {
     dest->data = gnutls_malloc(source->size);
     CRM_ASSERT(dest->data);
     memcpy(dest->data, source->data, source->size);
     dest->size = source->size;
 }
 
 static void
 clear_gnutls_datum(gnutls_datum_t *datum)
 {
     gnutls_free(datum->data);
     datum->data = NULL;
     datum->size = 0;
 }
 
 #define KEY_READ_LEN 256
 
 static int
 set_key(gnutls_datum_t * key, const char *location)
 {
     FILE *stream;
     size_t buf_len = KEY_READ_LEN;
     static gnutls_datum_t key_cache = { 0, };
     static time_t key_cache_updated = 0;
 
     if (location == NULL) {
         return -1;
     }
 
     if (key_cache.data != NULL) {
         if ((time(NULL) - key_cache_updated) < 60) {
             copy_gnutls_datum(key, &key_cache);
             crm_debug("Using cached Pacemaker Remote key");
             return 0;
         } else {
             clear_gnutls_datum(&key_cache);
             key_cache_updated = 0;
             crm_debug("Cleared Pacemaker Remote key cache");
         }
     }
 
     stream = fopen(location, "r");
     if (!stream) {
         return -1;
     }
 
     key->data = gnutls_malloc(buf_len);
     key->size = 0;
     while (!feof(stream)) {
         int next = fgetc(stream);
 
         if (next == EOF) {
             if (!feof(stream)) {
                 crm_err("Error reading Pacemaker Remote key; copy in memory may be corrupted");
             }
             break;
         }
         if (key->size == buf_len) {
             buf_len = key->size + KEY_READ_LEN;
             key->data = gnutls_realloc(key->data, buf_len);
             CRM_ASSERT(key->data);
         }
         key->data[key->size++] = (unsigned char) next;
     }
     fclose(stream);
 
     if (key->size == 0) {
         clear_gnutls_datum(key);
         return -1;
     }
 
     if (key_cache.data == NULL) {
         copy_gnutls_datum(&key_cache, key);
         key_cache_updated = time(NULL);
         crm_debug("Cached Pacemaker Remote key");
     }
 
     return 0;
 }
 
 int
 lrmd_tls_set_key(gnutls_datum_t * key)
 {
     const char *specific_location = getenv("PCMK_authkey_location");
 
     if (set_key(key, specific_location) == 0) {
         crm_debug("Using custom authkey location %s", specific_location);
         return pcmk_ok;
 
     } else if (specific_location) {
         crm_err("No valid Pacemaker Remote key found at %s, trying default location", specific_location);
     }
 
     if ((set_key(key, DEFAULT_REMOTE_KEY_LOCATION) != 0)
         && (set_key(key, ALT_REMOTE_KEY_LOCATION) != 0)) {
         crm_err("No valid Pacemaker Remote key found at %s", DEFAULT_REMOTE_KEY_LOCATION);
         return -ENOKEY;
     }
 
     return pcmk_ok;
 }
 
 static void
 lrmd_gnutls_global_init(void)
 {
     static int gnutls_init = 0;
 
     if (!gnutls_init) {
         crm_gnutls_global_init();
     }
     gnutls_init = 1;
 }
 #endif
 
 static void
 report_async_connection_result(lrmd_t * lrmd, int rc)
 {
     lrmd_private_t *native = lrmd->lrmd_private;
 
     if (native->callback) {
         lrmd_event_data_t event = { 0, };
         event.type = lrmd_event_connect;
         event.remote_nodename = native->remote_nodename;
         event.connection_rc = rc;
         native->callback(&event);
     }
 }
 
 #ifdef HAVE_GNUTLS_GNUTLS_H
 static inline int
 lrmd__tls_client_handshake(pcmk__remote_t *remote)
 {
     return pcmk__tls_client_handshake(remote, LRMD_CLIENT_HANDSHAKE_TIMEOUT);
 }
 
 static void
 lrmd_tcp_connect_cb(void *userdata, int rc, int sock)
 {
     lrmd_t *lrmd = userdata;
     lrmd_private_t *native = lrmd->lrmd_private;
     char *name;
     static struct mainloop_fd_callbacks lrmd_tls_callbacks = {
         .dispatch = lrmd_tls_dispatch,
         .destroy = lrmd_tls_connection_destroy,
     };
     gnutls_datum_t psk_key = { NULL, 0 };
 
     native->async_timer = 0;
 
     if (rc != pcmk_rc_ok) {
         lrmd_tls_connection_destroy(lrmd);
         crm_info("Could not connect to Pacemaker Remote at %s:%d: %s "
                  CRM_XS " rc=%d",
                  native->server, native->port, pcmk_rc_str(rc), rc);
         report_async_connection_result(lrmd, pcmk_rc2legacy(rc));
         return;
     }
 
     /* The TCP connection was successful, so establish the TLS connection.
      * @TODO make this async to avoid blocking code in client
      */
 
     native->sock = sock;
 
     rc = lrmd_tls_set_key(&psk_key);
     if (rc != 0) {
         crm_warn("Could not set key for Pacemaker Remote at %s:%d " CRM_XS " rc=%d",
                  native->server, native->port, rc);
         lrmd_tls_connection_destroy(lrmd);
         report_async_connection_result(lrmd, rc);
         return;
     }
 
     gnutls_psk_allocate_client_credentials(&native->psk_cred_c);
     gnutls_psk_set_client_credentials(native->psk_cred_c, DEFAULT_REMOTE_USERNAME, &psk_key, GNUTLS_PSK_KEY_RAW);
     gnutls_free(psk_key.data);
 
     native->remote->tls_session = pcmk__new_tls_session(sock, GNUTLS_CLIENT,
                                                         GNUTLS_CRD_PSK,
                                                         native->psk_cred_c);
     if (native->remote->tls_session == NULL) {
         lrmd_tls_connection_destroy(lrmd);
         report_async_connection_result(lrmd, -EPROTO);
         return;
     }
 
     if (lrmd__tls_client_handshake(native->remote) != pcmk_rc_ok) {
         crm_warn("Disconnecting after TLS handshake with Pacemaker Remote server %s:%d failed",
                  native->server, native->port);
         gnutls_deinit(*native->remote->tls_session);
         gnutls_free(native->remote->tls_session);
         native->remote->tls_session = NULL;
         lrmd_tls_connection_destroy(lrmd);
         report_async_connection_result(lrmd, -EKEYREJECTED);
         return;
     }
 
     crm_info("TLS connection to Pacemaker Remote server %s:%d succeeded",
              native->server, native->port);
 
     name = crm_strdup_printf("pacemaker-remote-%s:%d",
                              native->server, native->port);
 
     native->process_notify = mainloop_add_trigger(G_PRIORITY_HIGH, lrmd_tls_dispatch, lrmd);
     native->source =
         mainloop_add_fd(name, G_PRIORITY_HIGH, native->sock, lrmd, &lrmd_tls_callbacks);
 
     rc = lrmd_handshake(lrmd, name);
     free(name);
 
     report_async_connection_result(lrmd, rc);
     return;
 }
 
 static int
 lrmd_tls_connect_async(lrmd_t * lrmd, int timeout /*ms */ )
 {
     int rc;
     int timer_id = 0;
     lrmd_private_t *native = lrmd->lrmd_private;
 
     lrmd_gnutls_global_init();
     native->sock = -1;
     rc = pcmk__connect_remote(native->server, native->port, timeout, &timer_id,
                               &(native->sock), lrmd, lrmd_tcp_connect_cb);
     if (rc != pcmk_rc_ok) {
         crm_warn("Pacemaker Remote connection to %s:%s failed: %s "
                  CRM_XS " rc=%d",
                  native->server, native->port, pcmk_rc_str(rc), rc);
         return -1;
     }
     native->async_timer = timer_id;
     return pcmk_ok;
 }
 
 static int
 lrmd_tls_connect(lrmd_t * lrmd, int *fd)
 {
     static struct mainloop_fd_callbacks lrmd_tls_callbacks = {
         .dispatch = lrmd_tls_dispatch,
         .destroy = lrmd_tls_connection_destroy,
     };
     int rc;
 
     lrmd_private_t *native = lrmd->lrmd_private;
     gnutls_datum_t psk_key = { NULL, 0 };
 
     lrmd_gnutls_global_init();
 
     native->sock = -1;
     rc = pcmk__connect_remote(native->server, native->port, 0, NULL,
                               &(native->sock), NULL, NULL);
     if (rc != pcmk_rc_ok) {
         crm_warn("Pacemaker Remote connection to %s:%s failed: %s "
                  CRM_XS " rc=%d",
                  native->server, native->port, pcmk_rc_str(rc), rc);
         lrmd_tls_connection_destroy(lrmd);
         return -ENOTCONN;
     }
 
     rc = lrmd_tls_set_key(&psk_key);
     if (rc < 0) {
         lrmd_tls_connection_destroy(lrmd);
         return rc;
     }
 
     gnutls_psk_allocate_client_credentials(&native->psk_cred_c);
     gnutls_psk_set_client_credentials(native->psk_cred_c, DEFAULT_REMOTE_USERNAME, &psk_key, GNUTLS_PSK_KEY_RAW);
     gnutls_free(psk_key.data);
 
     native->remote->tls_session = pcmk__new_tls_session(native->sock, GNUTLS_CLIENT,
                                                         GNUTLS_CRD_PSK,
                                                         native->psk_cred_c);
     if (native->remote->tls_session == NULL) {
         lrmd_tls_connection_destroy(lrmd);
         return -EPROTO;
     }
 
     if (lrmd__tls_client_handshake(native->remote) != pcmk_rc_ok) {
         crm_err("Session creation for %s:%d failed", native->server, native->port);
         gnutls_deinit(*native->remote->tls_session);
         gnutls_free(native->remote->tls_session);
         native->remote->tls_session = NULL;
         lrmd_tls_connection_destroy(lrmd);
         return -EKEYREJECTED;
     }
 
     crm_info("Client TLS connection established with Pacemaker Remote server %s:%d", native->server,
              native->port);
 
     if (fd) {
         *fd = native->sock;
     } else {
         char *name = crm_strdup_printf("pacemaker-remote-%s:%d",
                                        native->server, native->port);
 
         native->process_notify = mainloop_add_trigger(G_PRIORITY_HIGH, lrmd_tls_dispatch, lrmd);
         native->source =
             mainloop_add_fd(name, G_PRIORITY_HIGH, native->sock, lrmd, &lrmd_tls_callbacks);
         free(name);
     }
     return pcmk_ok;
 }
 #endif
 
 static int
 lrmd_api_connect(lrmd_t * lrmd, const char *name, int *fd)
 {
     int rc = -ENOTCONN;
     lrmd_private_t *native = lrmd->lrmd_private;
 
     switch (native->type) {
         case pcmk__client_ipc:
             rc = lrmd_ipc_connect(lrmd, fd);
             break;
 #ifdef HAVE_GNUTLS_GNUTLS_H
         case pcmk__client_tls:
             rc = lrmd_tls_connect(lrmd, fd);
             break;
 #endif
         default:
             crm_err("Unsupported connection type: %d", native->type);
     }
 
     if (rc == pcmk_ok) {
         rc = lrmd_handshake(lrmd, name);
     }
 
     return rc;
 }
 
 static int
 lrmd_api_connect_async(lrmd_t * lrmd, const char *name, int timeout)
 {
     int rc = 0;
     lrmd_private_t *native = lrmd->lrmd_private;
 
     CRM_CHECK(native && native->callback, return -1);
 
     switch (native->type) {
         case pcmk__client_ipc:
             /* fake async connection with ipc.  it should be fast
              * enough that we gain very little from async */
             rc = lrmd_api_connect(lrmd, name, NULL);
             if (!rc) {
                 report_async_connection_result(lrmd, rc);
             }
             break;
 #ifdef HAVE_GNUTLS_GNUTLS_H
         case pcmk__client_tls:
             rc = lrmd_tls_connect_async(lrmd, timeout);
             if (rc) {
                 /* connection failed, report rc now */
                 report_async_connection_result(lrmd, rc);
             }
             break;
 #endif
         default:
             crm_err("Unsupported connection type: %d", native->type);
     }
 
     return rc;
 }
 
 static void
 lrmd_ipc_disconnect(lrmd_t * lrmd)
 {
     lrmd_private_t *native = lrmd->lrmd_private;
 
     if (native->source != NULL) {
         /* Attached to mainloop */
         mainloop_del_ipc_client(native->source);
         native->source = NULL;
         native->ipc = NULL;
 
     } else if (native->ipc) {
         /* Not attached to mainloop */
         crm_ipc_t *ipc = native->ipc;
 
         native->ipc = NULL;
         crm_ipc_close(ipc);
         crm_ipc_destroy(ipc);
     }
 }
 
 #ifdef HAVE_GNUTLS_GNUTLS_H
 static void
 lrmd_tls_disconnect(lrmd_t * lrmd)
 {
     lrmd_private_t *native = lrmd->lrmd_private;
 
     if (native->remote->tls_session) {
         gnutls_bye(*native->remote->tls_session, GNUTLS_SHUT_RDWR);
         gnutls_deinit(*native->remote->tls_session);
         gnutls_free(native->remote->tls_session);
         native->remote->tls_session = 0;
     }
 
     if (native->async_timer) {
         g_source_remove(native->async_timer);
         native->async_timer = 0;
     }
 
     if (native->source != NULL) {
         /* Attached to mainloop */
         mainloop_del_ipc_client(native->source);
         native->source = NULL;
 
     } else if (native->sock) {
         close(native->sock);
         native->sock = 0;
     }
 
     if (native->pending_notify) {
         g_list_free_full(native->pending_notify, lrmd_free_xml);
         native->pending_notify = NULL;
     }
 }
 #endif
 
 static int
 lrmd_api_disconnect(lrmd_t * lrmd)
 {
     lrmd_private_t *native = lrmd->lrmd_private;
 
     crm_info("Disconnecting %s %s executor connection",
              pcmk__client_type_str(native->type),
              (native->remote_nodename? native->remote_nodename : "local"));
     switch (native->type) {
         case pcmk__client_ipc:
             lrmd_ipc_disconnect(lrmd);
             break;
 #ifdef HAVE_GNUTLS_GNUTLS_H
         case pcmk__client_tls:
             lrmd_tls_disconnect(lrmd);
             break;
 #endif
         default:
             crm_err("Unsupported connection type: %d", native->type);
     }
 
     free(native->token);
     native->token = NULL;
 
     free(native->peer_version);
     native->peer_version = NULL;
     return 0;
 }
 
 static int
 lrmd_api_register_rsc(lrmd_t * lrmd,
                       const char *rsc_id,
                       const char *class,
                       const char *provider, const char *type, enum lrmd_call_options options)
 {
     int rc = pcmk_ok;
     xmlNode *data = NULL;
 
     if (!class || !type || !rsc_id) {
         return -EINVAL;
     }
     if (pcmk_is_set(pcmk_get_ra_caps(class), pcmk_ra_cap_provider)
         && (provider == NULL)) {
         return -EINVAL;
     }
 
     data = create_xml_node(NULL, F_LRMD_RSC);
 
     crm_xml_add(data, F_LRMD_ORIGIN, __func__);
     crm_xml_add(data, F_LRMD_RSC_ID, rsc_id);
     crm_xml_add(data, F_LRMD_CLASS, class);
     crm_xml_add(data, F_LRMD_PROVIDER, provider);
     crm_xml_add(data, F_LRMD_TYPE, type);
     rc = lrmd_send_command(lrmd, LRMD_OP_RSC_REG, data, NULL, 0, options, TRUE);
     free_xml(data);
 
     return rc;
 }
 
 static int
 lrmd_api_unregister_rsc(lrmd_t * lrmd, const char *rsc_id, enum lrmd_call_options options)
 {
     int rc = pcmk_ok;
     xmlNode *data = create_xml_node(NULL, F_LRMD_RSC);
 
     crm_xml_add(data, F_LRMD_ORIGIN, __func__);
     crm_xml_add(data, F_LRMD_RSC_ID, rsc_id);
     rc = lrmd_send_command(lrmd, LRMD_OP_RSC_UNREG, data, NULL, 0, options, TRUE);
     free_xml(data);
 
     return rc;
 }
 
 lrmd_rsc_info_t *
 lrmd_new_rsc_info(const char *rsc_id, const char *standard,
                   const char *provider, const char *type)
 {
     lrmd_rsc_info_t *rsc_info = calloc(1, sizeof(lrmd_rsc_info_t));
 
     CRM_ASSERT(rsc_info);
     if (rsc_id) {
         rsc_info->id = strdup(rsc_id);
         CRM_ASSERT(rsc_info->id);
     }
     if (standard) {
         rsc_info->standard = strdup(standard);
         CRM_ASSERT(rsc_info->standard);
     }
     if (provider) {
         rsc_info->provider = strdup(provider);
         CRM_ASSERT(rsc_info->provider);
     }
     if (type) {
         rsc_info->type = strdup(type);
         CRM_ASSERT(rsc_info->type);
     }
     return rsc_info;
 }
 
 lrmd_rsc_info_t *
 lrmd_copy_rsc_info(lrmd_rsc_info_t * rsc_info)
 {
     return lrmd_new_rsc_info(rsc_info->id, rsc_info->standard,
                              rsc_info->provider, rsc_info->type);
 }
 
 void
 lrmd_free_rsc_info(lrmd_rsc_info_t * rsc_info)
 {
     if (!rsc_info) {
         return;
     }
     free(rsc_info->id);
     free(rsc_info->type);
     free(rsc_info->standard);
     free(rsc_info->provider);
     free(rsc_info);
 }
 
 static lrmd_rsc_info_t *
 lrmd_api_get_rsc_info(lrmd_t * lrmd, const char *rsc_id, enum lrmd_call_options options)
 {
     lrmd_rsc_info_t *rsc_info = NULL;
     xmlNode *data = create_xml_node(NULL, F_LRMD_RSC);
     xmlNode *output = NULL;
     const char *class = NULL;
     const char *provider = NULL;
     const char *type = NULL;
 
     crm_xml_add(data, F_LRMD_ORIGIN, __func__);
     crm_xml_add(data, F_LRMD_RSC_ID, rsc_id);
     lrmd_send_command(lrmd, LRMD_OP_RSC_INFO, data, &output, 0, options, TRUE);
     free_xml(data);
 
     if (!output) {
         return NULL;
     }
 
     class = crm_element_value(output, F_LRMD_CLASS);
     provider = crm_element_value(output, F_LRMD_PROVIDER);
     type = crm_element_value(output, F_LRMD_TYPE);
 
     if (!class || !type) {
         free_xml(output);
         return NULL;
     } else if (pcmk_is_set(pcmk_get_ra_caps(class), pcmk_ra_cap_provider)
                && !provider) {
         free_xml(output);
         return NULL;
     }
 
     rsc_info = lrmd_new_rsc_info(rsc_id, class, provider, type);
     free_xml(output);
     return rsc_info;
 }
 
 void
 lrmd_free_op_info(lrmd_op_info_t *op_info)
 {
     if (op_info) {
         free(op_info->rsc_id);
         free(op_info->action);
         free(op_info->interval_ms_s);
         free(op_info->timeout_ms_s);
         free(op_info);
     }
 }
 
 static int
 lrmd_api_get_recurring_ops(lrmd_t *lrmd, const char *rsc_id, int timeout_ms,
                            enum lrmd_call_options options, GList **output)
 {
     xmlNode *data = NULL;
     xmlNode *output_xml = NULL;
     int rc = pcmk_ok;
 
     if (output == NULL) {
         return -EINVAL;
     }
     *output = NULL;
 
     // Send request
     if (rsc_id) {
         data = create_xml_node(NULL, F_LRMD_RSC);
         crm_xml_add(data, F_LRMD_ORIGIN, __func__);
         crm_xml_add(data, F_LRMD_RSC_ID, rsc_id);
     }
     rc = lrmd_send_command(lrmd, LRMD_OP_GET_RECURRING, data, &output_xml,
                            timeout_ms, options, TRUE);
     if (data) {
         free_xml(data);
     }
 
     // Process reply
     if ((rc != pcmk_ok) || (output_xml == NULL)) {
         return rc;
     }
     for (xmlNode *rsc_xml = first_named_child(output_xml, F_LRMD_RSC);
          rsc_xml != NULL; rsc_xml = crm_next_same_xml(rsc_xml)) {
 
         rsc_id = crm_element_value(rsc_xml, F_LRMD_RSC_ID);
         if (rsc_id == NULL) {
             crm_err("Could not parse recurring operation information from executor");
             continue;
         }
         for (xmlNode *op_xml = first_named_child(rsc_xml, T_LRMD_RSC_OP);
              op_xml != NULL; op_xml = crm_next_same_xml(op_xml)) {
 
             lrmd_op_info_t *op_info = calloc(1, sizeof(lrmd_op_info_t));
 
             CRM_CHECK(op_info != NULL, break);
             op_info->rsc_id = strdup(rsc_id);
             op_info->action = crm_element_value_copy(op_xml, F_LRMD_RSC_ACTION);
             op_info->interval_ms_s = crm_element_value_copy(op_xml,
                                                             F_LRMD_RSC_INTERVAL);
             op_info->timeout_ms_s = crm_element_value_copy(op_xml,
                                                            F_LRMD_TIMEOUT);
             *output = g_list_prepend(*output, op_info);
         }
     }
     free_xml(output_xml);
     return rc;
 }
 
 
 static void
 lrmd_api_set_callback(lrmd_t * lrmd, lrmd_event_callback callback)
 {
     lrmd_private_t *native = lrmd->lrmd_private;
 
     native->callback = callback;
 }
 
 void
 lrmd_internal_set_proxy_callback(lrmd_t * lrmd, void *userdata, void (*callback)(lrmd_t *lrmd, void *userdata, xmlNode *msg))
 {
     lrmd_private_t *native = lrmd->lrmd_private;
 
     native->proxy_callback = callback;
     native->proxy_callback_userdata = userdata;
 }
 
 void
 lrmd_internal_proxy_dispatch(lrmd_t *lrmd, xmlNode *msg)
 {
     lrmd_private_t *native = lrmd->lrmd_private;
 
     if (native->proxy_callback) {
         crm_log_xml_trace(msg, "PROXY_INBOUND");
         native->proxy_callback(lrmd, native->proxy_callback_userdata, msg);
     }
 }
 
 int
 lrmd_internal_proxy_send(lrmd_t * lrmd, xmlNode *msg)
 {
     if (lrmd == NULL) {
         return -ENOTCONN;
     }
     crm_xml_add(msg, F_LRMD_OPERATION, CRM_OP_IPC_FWD);
 
     crm_log_xml_trace(msg, "PROXY_OUTBOUND");
     return lrmd_send_xml_no_reply(lrmd, msg);
 }
 
 static int
 stonith_get_metadata(const char *provider, const char *type, char **output)
 {
     int rc = pcmk_ok;
     stonith_t *stonith_api = stonith_api_new();
 
     if (stonith_api == NULL) {
         crm_err("Could not get fence agent meta-data: API memory allocation failed");
         return -ENOMEM;
     }
 
     rc = stonith_api->cmds->metadata(stonith_api, st_opt_sync_call, type,
                                      provider, output, 0);
     if ((rc == pcmk_ok) && (*output == NULL)) {
         rc = -EIO;
     }
     stonith_api->cmds->free(stonith_api);
     return rc;
 }
 
 static int
 lrmd_api_get_metadata(lrmd_t *lrmd, const char *standard, const char *provider,
                       const char *type, char **output,
                       enum lrmd_call_options options)
 {
     return lrmd->cmds->get_metadata_params(lrmd, standard, provider, type,
                                            output, options, NULL);
 }
 
 static int
 lrmd_api_get_metadata_params(lrmd_t *lrmd, const char *standard,
                              const char *provider, const char *type,
                              char **output, enum lrmd_call_options options,
                              lrmd_key_value_t *params)
 {
     svc_action_t *action = NULL;
     GHashTable *params_table = NULL;
 
     if (!standard || !type) {
         lrmd_key_value_freeall(params);
         return -EINVAL;
     }
 
     if (pcmk__str_eq(standard, PCMK_RESOURCE_CLASS_STONITH, pcmk__str_casei)) {
         lrmd_key_value_freeall(params);
         return stonith_get_metadata(provider, type, output);
     }
 
     params_table = pcmk__strkey_table(free, free);
     for (const lrmd_key_value_t *param = params; param; param = param->next) {
         g_hash_table_insert(params_table, strdup(param->key), strdup(param->value));
     }
     action = resources_action_create(type, standard, provider, type,
                                      CRMD_ACTION_METADATA, 0,
                                      CRMD_METADATA_CALL_TIMEOUT, params_table,
                                      0);
     lrmd_key_value_freeall(params);
 
     if (action == NULL) {
         crm_err("Unable to retrieve meta-data for %s:%s:%s",
                 standard, provider, type);
         return -EINVAL;
     }
 
     if (!services_action_sync(action)) {
         crm_err("Failed to retrieve meta-data for %s:%s:%s",
                 standard, provider, type);
         services_action_free(action);
         return -EIO;
     }
 
     if (!action->stdout_data) {
         crm_err("Failed to receive meta-data for %s:%s:%s",
                 standard, provider, type);
         services_action_free(action);
         return -EIO;
     }
 
     *output = strdup(action->stdout_data);
     services_action_free(action);
 
     return pcmk_ok;
 }
 
 static int
 lrmd_api_exec(lrmd_t *lrmd, const char *rsc_id, const char *action,
               const char *userdata, guint interval_ms,
               int timeout,      /* ms */
               int start_delay,  /* ms */
               enum lrmd_call_options options, lrmd_key_value_t * params)
 {
     int rc = pcmk_ok;
     xmlNode *data = create_xml_node(NULL, F_LRMD_RSC);
     xmlNode *args = create_xml_node(data, XML_TAG_ATTRS);
     lrmd_key_value_t *tmp = NULL;
 
     crm_xml_add(data, F_LRMD_ORIGIN, __func__);
     crm_xml_add(data, F_LRMD_RSC_ID, rsc_id);
     crm_xml_add(data, F_LRMD_RSC_ACTION, action);
     crm_xml_add(data, F_LRMD_RSC_USERDATA_STR, userdata);
     crm_xml_add_ms(data, F_LRMD_RSC_INTERVAL, interval_ms);
     crm_xml_add_int(data, F_LRMD_TIMEOUT, timeout);
     crm_xml_add_int(data, F_LRMD_RSC_START_DELAY, start_delay);
 
     for (tmp = params; tmp; tmp = tmp->next) {
         hash2smartfield((gpointer) tmp->key, (gpointer) tmp->value, args);
     }
 
     rc = lrmd_send_command(lrmd, LRMD_OP_RSC_EXEC, data, NULL, timeout, options, TRUE);
     free_xml(data);
 
     lrmd_key_value_freeall(params);
     return rc;
 }
 
 /* timeout is in ms */
 static int
 lrmd_api_exec_alert(lrmd_t *lrmd, const char *alert_id, const char *alert_path,
                     int timeout, lrmd_key_value_t *params)
 {
     int rc = pcmk_ok;
     xmlNode *data = create_xml_node(NULL, F_LRMD_ALERT);
     xmlNode *args = create_xml_node(data, XML_TAG_ATTRS);
     lrmd_key_value_t *tmp = NULL;
 
     crm_xml_add(data, F_LRMD_ORIGIN, __func__);
     crm_xml_add(data, F_LRMD_ALERT_ID, alert_id);
     crm_xml_add(data, F_LRMD_ALERT_PATH, alert_path);
     crm_xml_add_int(data, F_LRMD_TIMEOUT, timeout);
 
     for (tmp = params; tmp; tmp = tmp->next) {
         hash2smartfield((gpointer) tmp->key, (gpointer) tmp->value, args);
     }
 
     rc = lrmd_send_command(lrmd, LRMD_OP_ALERT_EXEC, data, NULL, timeout,
                            lrmd_opt_notify_orig_only, TRUE);
     free_xml(data);
 
     lrmd_key_value_freeall(params);
     return rc;
 }
 
 static int
 lrmd_api_cancel(lrmd_t *lrmd, const char *rsc_id, const char *action,
                 guint interval_ms)
 {
     int rc = pcmk_ok;
     xmlNode *data = create_xml_node(NULL, F_LRMD_RSC);
 
     crm_xml_add(data, F_LRMD_ORIGIN, __func__);
     crm_xml_add(data, F_LRMD_RSC_ACTION, action);
     crm_xml_add(data, F_LRMD_RSC_ID, rsc_id);
     crm_xml_add_ms(data, F_LRMD_RSC_INTERVAL, interval_ms);
     rc = lrmd_send_command(lrmd, LRMD_OP_RSC_CANCEL, data, NULL, 0, 0, TRUE);
     free_xml(data);
     return rc;
 }
 
 static int
 list_stonith_agents(lrmd_list_t ** resources)
 {
     int rc = 0;
     stonith_t *stonith_api = stonith_api_new();
     stonith_key_value_t *stonith_resources = NULL;
     stonith_key_value_t *dIter = NULL;
 
     if (stonith_api == NULL) {
         crm_err("Could not list fence agents: API memory allocation failed");
         return -ENOMEM;
     }
     stonith_api->cmds->list_agents(stonith_api, st_opt_sync_call, NULL,
                                    &stonith_resources, 0);
     stonith_api->cmds->free(stonith_api);
 
     for (dIter = stonith_resources; dIter; dIter = dIter->next) {
         rc++;
         if (resources) {
             *resources = lrmd_list_add(*resources, dIter->value);
         }
     }
 
     stonith_key_value_freeall(stonith_resources, 1, 0);
     return rc;
 }
 
 static int
 lrmd_api_list_agents(lrmd_t * lrmd, lrmd_list_t ** resources, const char *class,
                      const char *provider)
 {
     int rc = 0;
     int stonith_count = 0; // Initially, whether to include stonith devices
 
     if (pcmk__str_eq(class, PCMK_RESOURCE_CLASS_STONITH, pcmk__str_casei)) {
         stonith_count = 1;
 
     } else {
         GList *gIter = NULL;
         GList *agents = resources_list_agents(class, provider);
 
         for (gIter = agents; gIter != NULL; gIter = gIter->next) {
             *resources = lrmd_list_add(*resources, (const char *)gIter->data);
             rc++;
         }
         g_list_free_full(agents, free);
 
         if (!class) {
             stonith_count = 1;
         }
     }
 
     if (stonith_count) {
         // Now, if stonith devices are included, how many there are
         stonith_count = list_stonith_agents(resources);
         if (stonith_count > 0) {
             rc += stonith_count;
         }
     }
     if (rc == 0) {
         crm_notice("No agents found for class %s", class);
         rc = -EPROTONOSUPPORT;
     }
     return rc;
 }
 
 static int
 does_provider_have_agent(const char *agent, const char *provider, const char *class)
 {
     int found = 0;
     GList *agents = NULL;
     GList *gIter2 = NULL;
 
     agents = resources_list_agents(class, provider);
     for (gIter2 = agents; gIter2 != NULL; gIter2 = gIter2->next) {
         if (pcmk__str_eq(agent, gIter2->data, pcmk__str_casei)) {
             found = 1;
         }
     }
     g_list_free_full(agents, free);
 
     return found;
 }
 
 static int
 lrmd_api_list_ocf_providers(lrmd_t * lrmd, const char *agent, lrmd_list_t ** providers)
 {
     int rc = pcmk_ok;
     char *provider = NULL;
     GList *ocf_providers = NULL;
     GList *gIter = NULL;
 
     ocf_providers = resources_list_providers(PCMK_RESOURCE_CLASS_OCF);
 
     for (gIter = ocf_providers; gIter != NULL; gIter = gIter->next) {
         provider = gIter->data;
         if (!agent || does_provider_have_agent(agent, provider,
                                                PCMK_RESOURCE_CLASS_OCF)) {
             *providers = lrmd_list_add(*providers, (const char *)gIter->data);
             rc++;
         }
     }
 
     g_list_free_full(ocf_providers, free);
     return rc;
 }
 
 static int
 lrmd_api_list_standards(lrmd_t * lrmd, lrmd_list_t ** supported)
 {
     int rc = 0;
     GList *standards = NULL;
     GList *gIter = NULL;
 
     standards = resources_list_standards();
 
     for (gIter = standards; gIter != NULL; gIter = gIter->next) {
         *supported = lrmd_list_add(*supported, (const char *)gIter->data);
         rc++;
     }
 
     if (list_stonith_agents(NULL) > 0) {
         *supported = lrmd_list_add(*supported, PCMK_RESOURCE_CLASS_STONITH);
         rc++;
     }
 
     g_list_free_full(standards, free);
     return rc;
 }
 
 lrmd_t *
 lrmd_api_new(void)
 {
     lrmd_t *new_lrmd = NULL;
     lrmd_private_t *pvt = NULL;
 
     new_lrmd = calloc(1, sizeof(lrmd_t));
     pvt = calloc(1, sizeof(lrmd_private_t));
     pvt->remote = calloc(1, sizeof(pcmk__remote_t));
     new_lrmd->cmds = calloc(1, sizeof(lrmd_api_operations_t));
 
     pvt->type = pcmk__client_ipc;
     new_lrmd->lrmd_private = pvt;
 
     new_lrmd->cmds->connect = lrmd_api_connect;
     new_lrmd->cmds->connect_async = lrmd_api_connect_async;
     new_lrmd->cmds->is_connected = lrmd_api_is_connected;
     new_lrmd->cmds->poke_connection = lrmd_api_poke_connection;
     new_lrmd->cmds->disconnect = lrmd_api_disconnect;
     new_lrmd->cmds->register_rsc = lrmd_api_register_rsc;
     new_lrmd->cmds->unregister_rsc = lrmd_api_unregister_rsc;
     new_lrmd->cmds->get_rsc_info = lrmd_api_get_rsc_info;
     new_lrmd->cmds->get_recurring_ops = lrmd_api_get_recurring_ops;
     new_lrmd->cmds->set_callback = lrmd_api_set_callback;
     new_lrmd->cmds->get_metadata = lrmd_api_get_metadata;
     new_lrmd->cmds->exec = lrmd_api_exec;
     new_lrmd->cmds->cancel = lrmd_api_cancel;
     new_lrmd->cmds->list_agents = lrmd_api_list_agents;
     new_lrmd->cmds->list_ocf_providers = lrmd_api_list_ocf_providers;
     new_lrmd->cmds->list_standards = lrmd_api_list_standards;
     new_lrmd->cmds->exec_alert = lrmd_api_exec_alert;
     new_lrmd->cmds->get_metadata_params = lrmd_api_get_metadata_params;
 
     return new_lrmd;
 }
 
 lrmd_t *
 lrmd_remote_api_new(const char *nodename, const char *server, int port)
 {
 #ifdef HAVE_GNUTLS_GNUTLS_H
     lrmd_t *new_lrmd = lrmd_api_new();
     lrmd_private_t *native = new_lrmd->lrmd_private;
 
     if (!nodename && !server) {
         lrmd_api_delete(new_lrmd);
         return NULL;
     }
 
     native->type = pcmk__client_tls;
     native->remote_nodename = nodename ? strdup(nodename) : strdup(server);
     native->server = server ? strdup(server) : strdup(nodename);
     native->port = port;
     if (native->port == 0) {
         native->port = crm_default_remote_port();
     }
 
     return new_lrmd;
 #else
     crm_err("Cannot communicate with Pacemaker Remote because GnuTLS is not enabled for this build");
     return NULL;
 #endif
 }
 
 void
 lrmd_api_delete(lrmd_t * lrmd)
 {
     if (!lrmd) {
         return;
     }
     lrmd->cmds->disconnect(lrmd);       /* no-op if already disconnected */
     free(lrmd->cmds);
     if (lrmd->lrmd_private) {
         lrmd_private_t *native = lrmd->lrmd_private;
 
 #ifdef HAVE_GNUTLS_GNUTLS_H
         free(native->server);
 #endif
         free(native->remote_nodename);
         free(native->remote);
         free(native->token);
         free(native->peer_version);
     }
 
     free(lrmd->lrmd_private);
     free(lrmd);
 }
diff --git a/tools/crm_resource_runtime.c b/tools/crm_resource_runtime.c
index 3534546bfb..7a4136f918 100644
--- a/tools/crm_resource_runtime.c
+++ b/tools/crm_resource_runtime.c
@@ -1,1958 +1,1958 @@
 /*
  * 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_resource.h>
 #include <crm/common/ipc_controld.h>
 #include <crm/common/lists_internal.h>
 #include <crm/common/xml_internal.h>
 
 resource_checks_t *
 cli_check_resource(pe_resource_t *rsc, char *role_s, char *managed)
 {
     pe_resource_t *parent = uber_parent(rsc);
     resource_checks_t *rc = calloc(1, sizeof(resource_checks_t));
 
     if (role_s) {
         enum rsc_role_e role = text2role(role_s);
 
         if (role == RSC_ROLE_STOPPED) {
             rc->flags |= rsc_remain_stopped;
         } else if (pcmk_is_set(parent->flags, pe_rsc_promotable) &&
                    role == RSC_ROLE_SLAVE) {
             rc->flags |= rsc_unpromotable;
         }
     }
 
     if (managed && !crm_is_true(managed)) {
         rc->flags |= rsc_unmanaged;
     }
 
     if (rsc->lock_node) {
         rc->lock_node = rsc->lock_node->details->uname;
     }
 
     rc->rsc = rsc;
     return rc;
 }
 
 static GList *
 build_node_info_list(pe_resource_t *rsc)
 {
     GList *retval = NULL;
 
     for (GList *iter = rsc->children; iter != NULL; iter = iter->next) {
         pe_resource_t *child = (pe_resource_t *) iter->data;
 
         for (GList *iter2 = child->running_on; iter2 != NULL; iter2 = iter2->next) {
             pe_node_t *node = (pe_node_t *) iter2->data;
             node_info_t *ni = calloc(1, sizeof(node_info_t));
             ni->node_name = node->details->uname;
             ni->promoted = pcmk_is_set(rsc->flags, pe_rsc_promotable) &&
                            child->fns->state(child, TRUE) == RSC_ROLE_MASTER;
 
             retval = g_list_prepend(retval, ni);
         }
     }
 
     return retval;
 }
 
 GList *
 cli_resource_search(pe_resource_t *rsc, const char *requested_name,
                     pe_working_set_t *data_set)
 {
     GList *retval = NULL;
     pe_resource_t *parent = uber_parent(rsc);
 
     if (pe_rsc_is_clone(rsc)) {
         retval = build_node_info_list(rsc);
 
     /* The anonymous clone children's common ID is supplied */
     } else if (pe_rsc_is_clone(parent)
                && !pcmk_is_set(rsc->flags, pe_rsc_unique)
                && rsc->clone_name
                && pcmk__str_eq(requested_name, rsc->clone_name, pcmk__str_casei)
                && !pcmk__str_eq(requested_name, rsc->id, pcmk__str_casei)) {
 
         retval = build_node_info_list(parent);
 
     } else if (rsc->running_on != NULL) {
         for (GList *iter = rsc->running_on; iter != NULL; iter = iter->next) {
             pe_node_t *node = (pe_node_t *) iter->data;
             node_info_t *ni = calloc(1, sizeof(node_info_t));
             ni->node_name = node->details->uname;
             ni->promoted = rsc->fns->state(rsc, TRUE) == RSC_ROLE_MASTER;
 
             retval = g_list_prepend(retval, ni);
         }
     }
 
     return retval;
 }
 
 #define XPATH_MAX 1024
 
 // \return Standard Pacemaker return code
 static int
 find_resource_attr(pcmk__output_t *out, cib_t * the_cib, const char *attr,
                    const char *rsc, const char *attr_set_type, const char *set_name,
                    const char *attr_id, const char *attr_name, char **value)
 {
     int offset = 0;
     int rc = pcmk_rc_ok;
     xmlNode *xml_search = NULL;
     char *xpath_string = NULL;
 
     if(value) {
         *value = NULL;
     }
 
     if(the_cib == NULL) {
         return ENOTCONN;
     }
 
     xpath_string = calloc(1, XPATH_MAX);
     offset +=
         snprintf(xpath_string + offset, XPATH_MAX - offset, "%s", get_object_path("resources"));
 
     offset += snprintf(xpath_string + offset, XPATH_MAX - offset, "//*[@id=\"%s\"]", rsc);
 
     if (attr_set_type) {
         offset += snprintf(xpath_string + offset, XPATH_MAX - offset, "/%s", attr_set_type);
         if (set_name) {
             offset += snprintf(xpath_string + offset, XPATH_MAX - offset, "[@id=\"%s\"]", set_name);
         }
     }
 
     offset += snprintf(xpath_string + offset, XPATH_MAX - offset, "//nvpair[");
     if (attr_id) {
         offset += snprintf(xpath_string + offset, XPATH_MAX - offset, "@id=\"%s\"", attr_id);
     }
 
     if (attr_name) {
         if (attr_id) {
             offset += snprintf(xpath_string + offset, XPATH_MAX - offset, " and ");
         }
         offset += snprintf(xpath_string + offset, XPATH_MAX - offset, "@name=\"%s\"", attr_name);
     }
     offset += snprintf(xpath_string + offset, XPATH_MAX - offset, "]");
     CRM_LOG_ASSERT(offset > 0);
 
     rc = the_cib->cmds->query(the_cib, xpath_string, &xml_search,
                               cib_sync_call | cib_scope_local | cib_xpath);
     rc = pcmk_legacy2rc(rc);
 
     if (rc != pcmk_rc_ok) {
         goto done;
     }
 
     crm_log_xml_debug(xml_search, "Match");
     if (xml_has_children(xml_search)) {
         xmlNode *child = NULL;
 
         rc = EINVAL;
         out->info(out, "Multiple attributes match name=%s", attr_name);
 
         for (child = pcmk__xml_first_child(xml_search); child != NULL;
              child = pcmk__xml_next(child)) {
             out->info(out, "  Value: %s \t(id=%s)",
                       crm_element_value(child, XML_NVPAIR_ATTR_VALUE), ID(child));
         }
 
         out->spacer(out);
 
     } else if(value) {
         const char *tmp = crm_element_value(xml_search, attr);
 
         if (tmp) {
             *value = strdup(tmp);
         }
     }
 
   done:
     free(xpath_string);
     free_xml(xml_search);
     return rc;
 }
 
 /* PRIVATE. Use the find_matching_attr_resources instead. */
 static void
 find_matching_attr_resources_recursive(pcmk__output_t *out, GList/* <pe_resource_t*> */ ** result,
                                        pe_resource_t * rsc, const char * rsc_id,
                                        const char * attr_set, const char * attr_set_type,
                                        const char * attr_id, const char * attr_name,
                                        cib_t * cib, const char * cmd, int depth)
 {
     int rc = pcmk_rc_ok;
     char *lookup_id = clone_strip(rsc->id);
     char *local_attr_id = NULL;
 
     /* visit the children */
     for(GList *gIter = rsc->children; gIter; gIter = gIter->next) {
         find_matching_attr_resources_recursive(out, result, (pe_resource_t*)gIter->data,
                                                rsc_id, attr_set, attr_set_type,
                                                attr_id, attr_name, cib, cmd, depth+1);
         /* do it only once for clones */
         if(pe_clone == rsc->variant) {
             break;
         }
     }
 
     rc = find_resource_attr(out, cib, XML_ATTR_ID, lookup_id, attr_set_type,
                             attr_set, attr_id, attr_name, &local_attr_id);
     /* Post-order traversal. 
      * The root is always on the list and it is the last item. */
     if((0 == depth) || (pcmk_rc_ok == rc)) {
         /* push the head */
         *result = g_list_append(*result, rsc);
     }
 
     free(local_attr_id);
     free(lookup_id);
 }
 
 
 /* The result is a linearized pre-ordered tree of resources. */
 static GList/*<pe_resource_t*>*/ *
 find_matching_attr_resources(pcmk__output_t *out, pe_resource_t * rsc,
                              const char * rsc_id, const char * attr_set,
                              const char * attr_set_type, const char * attr_id,
                              const char * attr_name, cib_t * cib, const char * cmd,
                              gboolean force)
 {
     int rc = pcmk_rc_ok;
     char *lookup_id = NULL;
     char *local_attr_id = NULL;
     GList * result = NULL;
     /* If --force is used, update only the requested resource (clone or primitive).
      * Otherwise, if the primitive has the attribute, use that.
      * Otherwise use the clone. */
     if(force == TRUE) {
         return g_list_append(result, rsc);
     }
     if(rsc->parent && pe_clone == rsc->parent->variant) {
         int rc = pcmk_rc_ok;
         char *local_attr_id = NULL;
         rc = find_resource_attr(out, cib, XML_ATTR_ID, rsc_id, attr_set_type,
                                 attr_set, attr_id, attr_name, &local_attr_id);
         free(local_attr_id);
 
         if(rc != pcmk_rc_ok) {
             rsc = rsc->parent;
             out->info(out, "Performing %s of '%s' on '%s', the parent of '%s'",
                       cmd, attr_name, rsc->id, rsc_id);
         }
         return g_list_append(result, rsc);
     } else if(rsc->parent == NULL && rsc->children && pe_clone == rsc->variant) {
         pe_resource_t *child = rsc->children->data;
 
         if(child->variant == pe_native) {
             lookup_id = clone_strip(child->id); /* Could be a cloned group! */
             rc = find_resource_attr(out, cib, XML_ATTR_ID, lookup_id, attr_set_type,
                                     attr_set, attr_id, attr_name, &local_attr_id);
 
             if(rc == pcmk_rc_ok) {
                 rsc = child;
                 out->info(out, "A value for '%s' already exists in child '%s', performing %s on that instead of '%s'",
                           attr_name, lookup_id, cmd, rsc_id);
             }
 
             free(local_attr_id);
             free(lookup_id);
         }
         return g_list_append(result, rsc);
     }
     /* If the resource is a group ==> children inherit the attribute if defined. */
     find_matching_attr_resources_recursive(out, &result, rsc, rsc_id, attr_set,
                                            attr_set_type, attr_id, attr_name,
                                            cib, cmd, 0);
     return result;
 }
 
 // \return Standard Pacemaker return code
 int
 cli_resource_update_attribute(pe_resource_t *rsc, const char *requested_name,
                               const char *attr_set, const char *attr_set_type,
                               const char *attr_id, const char *attr_name,
                               const char *attr_value, gboolean recursive,
                               cib_t *cib, int cib_options,
                               pe_working_set_t *data_set, gboolean force)
 {
     pcmk__output_t *out = data_set->priv;
     int rc = pcmk_rc_ok;
     static bool need_init = TRUE;
 
     char *local_attr_id = NULL;
     char *local_attr_set = NULL;
 
     GList/*<pe_resource_t*>*/ *resources = NULL;
     const char *common_attr_id = attr_id;
 
     if (attr_id == NULL && force == FALSE) {
         find_resource_attr (out, cib, XML_ATTR_ID, uber_parent(rsc)->id, NULL,
                             NULL, NULL, attr_name, NULL);
     }
 
     if (pcmk__str_eq(attr_set_type, XML_TAG_ATTR_SETS, pcmk__str_casei)) {
         if (force == FALSE) {
             rc = find_resource_attr(out, cib, XML_ATTR_ID, uber_parent(rsc)->id,
                                     XML_TAG_META_SETS, attr_set, attr_id,
                                     attr_name, &local_attr_id);
             if (rc == pcmk_rc_ok && !out->is_quiet(out)) {
                 out->err(out, "WARNING: There is already a meta attribute for '%s' called '%s' (id=%s)",
                          uber_parent(rsc)->id, attr_name, local_attr_id);
                 out->err(out, "         Delete '%s' first or use the force option to override",
                          local_attr_id);
             }
             free(local_attr_id);
             if (rc == pcmk_rc_ok) {
                 return ENOTUNIQ;
             }
         }
         resources = g_list_append(resources, rsc);
 
     } else {
         resources = find_matching_attr_resources(out, rsc, requested_name, attr_set, attr_set_type,
                                                  attr_id, attr_name, cib, "update", force);
     }
 
     /* If either attr_set or attr_id is specified,
      * one clearly intends to modify a single resource.
      * It is the last item on the resource list.*/
     for(GList *gIter = (attr_set||attr_id) ? g_list_last(resources) : resources
             ; gIter; gIter = gIter->next) {
         char *lookup_id = NULL;
 
         xmlNode *xml_top = NULL;
         xmlNode *xml_obj = NULL;
         local_attr_id = NULL;
         local_attr_set = NULL;
 
         rsc = (pe_resource_t*)gIter->data;
         attr_id = common_attr_id;
 
         lookup_id = clone_strip(rsc->id); /* Could be a cloned group! */
         rc = find_resource_attr(out, cib, XML_ATTR_ID, lookup_id, attr_set_type,
                                 attr_set, attr_id, attr_name, &local_attr_id);
 
         if (rc == pcmk_rc_ok) {
             crm_debug("Found a match for name=%s: id=%s", attr_name, local_attr_id);
             attr_id = local_attr_id;
 
         } else if (rc != ENXIO) {
             free(lookup_id);
             free(local_attr_id);
             g_list_free(resources);
             return rc;
 
         } else {
             const char *tag = crm_element_name(rsc->xml);
 
             if (attr_set == NULL) {
                 local_attr_set = crm_strdup_printf("%s-%s", lookup_id,
                                                    attr_set_type);
                 attr_set = local_attr_set;
             }
             if (attr_id == NULL) {
                 local_attr_id = crm_strdup_printf("%s-%s", attr_set, attr_name);
                 attr_id = local_attr_id;
             }
 
             xml_top = create_xml_node(NULL, tag);
             crm_xml_add(xml_top, XML_ATTR_ID, lookup_id);
 
             xml_obj = create_xml_node(xml_top, attr_set_type);
             crm_xml_add(xml_obj, XML_ATTR_ID, attr_set);
         }
 
         xml_obj = crm_create_nvpair_xml(xml_obj, attr_id, attr_name, attr_value);
         if (xml_top == NULL) {
             xml_top = xml_obj;
         }
 
         crm_log_xml_debug(xml_top, "Update");
 
         rc = cib->cmds->modify(cib, XML_CIB_TAG_RESOURCES, xml_top, cib_options);
         rc = pcmk_legacy2rc(rc);
 
         if (rc == pcmk_rc_ok) {
             out->info(out, "Set '%s' option: id=%s%s%s%s%s value=%s", lookup_id, local_attr_id,
                       attr_set ? " set=" : "", attr_set ? attr_set : "",
                       attr_name ? " name=" : "", attr_name ? attr_name : "", attr_value);
         }
 
         free_xml(xml_top);
 
         free(lookup_id);
         free(local_attr_id);
         free(local_attr_set);
 
         if(recursive && pcmk__str_eq(attr_set_type, XML_TAG_META_SETS, pcmk__str_casei)) {
             GList *lpc = NULL;
 
             if(need_init) {
                 xmlNode *cib_constraints = get_object_root(XML_CIB_TAG_CONSTRAINTS, data_set->input);
 
                 need_init = FALSE;
                 unpack_constraints(cib_constraints, data_set);
 
                 pe__clear_resource_flags_on_all(data_set, pe_rsc_allocating);
             }
 
             crm_debug("Looking for dependencies %p", rsc->rsc_cons_lhs);
             pe__set_resource_flags(rsc, pe_rsc_allocating);
             for (lpc = rsc->rsc_cons_lhs; lpc != NULL; lpc = lpc->next) {
                 pcmk__colocation_t *cons = (pcmk__colocation_t *) lpc->data;
                 pe_resource_t *peer = cons->rsc_lh;
 
                 crm_debug("Checking %s %d", cons->id, cons->score);
                 if (cons->score > 0 && !pcmk_is_set(peer->flags, pe_rsc_allocating)) {
                     /* Don't get into colocation loops */
                     crm_debug("Setting %s=%s for dependent resource %s", attr_name, attr_value, peer->id);
                     cli_resource_update_attribute(peer, peer->id, NULL, attr_set_type,
                                                   NULL, attr_name, attr_value, recursive,
                                                   cib, cib_options, data_set, force);
                 }
             }
         }
     }
     g_list_free(resources);
     return rc;
 }
 
 // \return Standard Pacemaker return code
 int
 cli_resource_delete_attribute(pe_resource_t *rsc, const char *requested_name,
                               const char *attr_set, const char *attr_set_type,
                               const char *attr_id, const char *attr_name,
                               cib_t *cib, int cib_options,
                               pe_working_set_t *data_set, gboolean force)
 {
     pcmk__output_t *out = data_set->priv;
     int rc = pcmk_rc_ok;
     GList/*<pe_resource_t*>*/ *resources = NULL;
 
     if (attr_id == NULL && force == FALSE) {
         find_resource_attr(out, cib, XML_ATTR_ID, uber_parent(rsc)->id, NULL,
                            NULL, NULL, attr_name, NULL);
     }
 
     if(pcmk__str_eq(attr_set_type, XML_TAG_META_SETS, pcmk__str_casei)) {
         resources = find_matching_attr_resources(out, rsc, requested_name, attr_set, attr_set_type,
                                                  attr_id, attr_name, cib, "delete", force);
     } else {
         resources = g_list_append(resources, rsc);
     }
 
     for(GList *gIter = resources; gIter; gIter = gIter->next) {
         char *lookup_id = NULL;
         xmlNode *xml_obj = NULL;
         char *local_attr_id = NULL;
 
         rsc = (pe_resource_t*)gIter->data;
 
         lookup_id = clone_strip(rsc->id);
         rc = find_resource_attr(out, cib, XML_ATTR_ID, lookup_id, attr_set_type,
                                 attr_set, attr_id, attr_name, &local_attr_id);
 
         if (rc == ENXIO) {
             free(lookup_id);
             rc = pcmk_rc_ok;
             continue;
 
         } else if (rc != pcmk_rc_ok) {
             free(lookup_id);
             g_list_free(resources);
             return rc;
         }
 
         if (attr_id == NULL) {
             attr_id = local_attr_id;
         }
 
         xml_obj = crm_create_nvpair_xml(NULL, attr_id, attr_name, NULL);
         crm_log_xml_debug(xml_obj, "Delete");
 
         CRM_ASSERT(cib);
         rc = cib->cmds->remove(cib, XML_CIB_TAG_RESOURCES, xml_obj, cib_options);
         rc = pcmk_legacy2rc(rc);
 
         if (rc == pcmk_rc_ok) {
             out->info(out, "Deleted '%s' option: id=%s%s%s%s%s", lookup_id, local_attr_id,
                       attr_set ? " set=" : "", attr_set ? attr_set : "",
                       attr_name ? " name=" : "", attr_name ? attr_name : "");
         }
 
         free(lookup_id);
         free_xml(xml_obj);
         free(local_attr_id);
     }
     g_list_free(resources);
     return rc;
 }
 
 // \return Standard Pacemaker return code
 static int
 send_lrm_rsc_op(pcmk_ipc_api_t *controld_api, bool do_fail_resource,
                 const char *host_uname, const char *rsc_id, pe_working_set_t *data_set)
 {
     pcmk__output_t *out = data_set->priv;
     const char *router_node = host_uname;
     const char *rsc_api_id = NULL;
     const char *rsc_long_id = NULL;
     const char *rsc_class = NULL;
     const char *rsc_provider = NULL;
     const char *rsc_type = NULL;
     bool cib_only = false;
     pe_resource_t *rsc = pe_find_resource(data_set->resources, rsc_id);
 
     if (rsc == NULL) {
         out->err(out, "Resource %s not found", rsc_id);
         return ENXIO;
 
     } else if (rsc->variant != pe_native) {
         out->err(out, "We can only process primitive resources, not %s", rsc_id);
         return EINVAL;
     }
 
     rsc_class = crm_element_value(rsc->xml, XML_AGENT_ATTR_CLASS);
     rsc_provider = crm_element_value(rsc->xml, XML_AGENT_ATTR_PROVIDER),
     rsc_type = crm_element_value(rsc->xml, XML_ATTR_TYPE);
     if ((rsc_class == NULL) || (rsc_type == NULL)) {
         out->err(out, "Resource %s does not have a class and type", rsc_id);
         return EINVAL;
     }
 
     {
         pe_node_t *node = pe_find_node(data_set->nodes, host_uname);
 
         if (node == NULL) {
             out->err(out, "Node %s not found", host_uname);
             return pcmk_rc_node_unknown;
         }
 
         if (!(node->details->online)) {
             if (do_fail_resource) {
                 out->err(out, "Node %s is not online", host_uname);
                 return ENOTCONN;
             } else {
                 cib_only = true;
             }
         }
         if (!cib_only && pe__is_guest_or_remote_node(node)) {
             node = pe__current_node(node->details->remote_rsc);
             if (node == NULL) {
                 out->err(out, "No cluster connection to Pacemaker Remote node %s detected",
                          host_uname);
                 return ENOTCONN;
             }
             router_node = node->details->uname;
         }
     }
 
     if (rsc->clone_name) {
         rsc_api_id = rsc->clone_name;
         rsc_long_id = rsc->id;
     } else {
         rsc_api_id = rsc->id;
     }
     if (do_fail_resource) {
         return pcmk_controld_api_fail(controld_api, host_uname, router_node,
                                       rsc_api_id, rsc_long_id,
                                       rsc_class, rsc_provider, rsc_type);
     } else {
         return pcmk_controld_api_refresh(controld_api, host_uname, router_node,
                                          rsc_api_id, rsc_long_id, rsc_class,
                                          rsc_provider, rsc_type, cib_only);
     }
 }
 
 /*!
  * \internal
  * \brief Get resource name as used in failure-related node attributes
  *
  * \param[in] rsc  Resource to check
  *
  * \return Newly allocated string containing resource's fail name
  * \note The caller is responsible for freeing the result.
  */
 static inline char *
 rsc_fail_name(pe_resource_t *rsc)
 {
     const char *name = (rsc->clone_name? rsc->clone_name : rsc->id);
 
     return pcmk_is_set(rsc->flags, pe_rsc_unique)? strdup(name) : clone_strip(name);
 }
 
 // \return Standard Pacemaker return code
 static int
 clear_rsc_history(pcmk_ipc_api_t *controld_api, const char *host_uname,
                   const char *rsc_id, pe_working_set_t *data_set)
 {
     int rc = pcmk_rc_ok;
 
     /* Erase the resource's entire LRM history in the CIB, even if we're only
      * clearing a single operation's fail count. If we erased only entries for a
      * single operation, we might wind up with a wrong idea of the current
      * resource state, and we might not re-probe the resource.
      */
     rc = send_lrm_rsc_op(controld_api, false, host_uname, rsc_id, data_set);
     if (rc != pcmk_rc_ok) {
         return rc;
     }
 
     crm_trace("Processing %d mainloop inputs",
               pcmk_controld_api_replies_expected(controld_api));
     while (g_main_context_iteration(NULL, FALSE)) {
         crm_trace("Processed mainloop input, %d still remaining",
                   pcmk_controld_api_replies_expected(controld_api));
     }
     return rc;
 }
 
 // \return Standard Pacemaker return code
 static int
 clear_rsc_failures(pcmk__output_t *out, pcmk_ipc_api_t *controld_api,
                    const char *node_name, const char *rsc_id, const char *operation,
                    const char *interval_spec, pe_working_set_t *data_set)
 {
     int rc = pcmk_rc_ok;
     const char *failed_value = NULL;
     const char *failed_id = NULL;
     const char *interval_ms_s = NULL;
     GHashTable *rscs = NULL;
     GHashTableIter iter;
 
     /* Create a hash table to use as a set of resources to clean. This lets us
      * clean each resource only once (per node) regardless of how many failed
      * operations it has.
      */
     rscs = pcmk__strkey_table(NULL, NULL);
 
     // Normalize interval to milliseconds for comparison to history entry
     if (operation) {
         interval_ms_s = crm_strdup_printf("%u",
                                           crm_parse_interval_spec(interval_spec));
     }
 
     for (xmlNode *xml_op = pcmk__xml_first_child(data_set->failed);
          xml_op != NULL;
          xml_op = pcmk__xml_next(xml_op)) {
 
         failed_id = crm_element_value(xml_op, XML_LRM_ATTR_RSCID);
         if (failed_id == NULL) {
             // Malformed history entry, should never happen
             continue;
         }
 
         // No resource specified means all resources match
         if (rsc_id) {
             pe_resource_t *fail_rsc = pe_find_resource_with_flags(data_set->resources,
                                                                   failed_id,
                                                                   pe_find_renamed|pe_find_anon);
 
             if (!fail_rsc || !pcmk__str_eq(rsc_id, fail_rsc->id, pcmk__str_casei)) {
                 continue;
             }
         }
 
         // Host name should always have been provided by this point
         failed_value = crm_element_value(xml_op, XML_ATTR_UNAME);
         if (!pcmk__str_eq(node_name, failed_value, pcmk__str_casei)) {
             continue;
         }
 
         // No operation specified means all operations match
         if (operation) {
             failed_value = crm_element_value(xml_op, XML_LRM_ATTR_TASK);
             if (!pcmk__str_eq(operation, failed_value, pcmk__str_casei)) {
                 continue;
             }
 
             // Interval (if operation was specified) defaults to 0 (not all)
             failed_value = crm_element_value(xml_op, XML_LRM_ATTR_INTERVAL_MS);
             if (!pcmk__str_eq(interval_ms_s, failed_value, pcmk__str_casei)) {
                 continue;
             }
         }
 
         g_hash_table_add(rscs, (gpointer) failed_id);
     }
 
     g_hash_table_iter_init(&iter, rscs);
     while (g_hash_table_iter_next(&iter, (gpointer *) &failed_id, NULL)) {
         crm_debug("Erasing failures of %s on %s", failed_id, node_name);
         rc = clear_rsc_history(controld_api, node_name, failed_id, data_set);
         if (rc != pcmk_rc_ok) {
             return rc;
         }
     }
     g_hash_table_destroy(rscs);
     return rc;
 }
 
 // \return Standard Pacemaker return code
 static int
 clear_rsc_fail_attrs(pe_resource_t *rsc, const char *operation,
                      const char *interval_spec, pe_node_t *node)
 {
     int rc = pcmk_rc_ok;
     int attr_options = pcmk__node_attr_none;
     char *rsc_name = rsc_fail_name(rsc);
 
     if (pe__is_guest_or_remote_node(node)) {
         attr_options |= pcmk__node_attr_remote;
     }
     rc = pcmk__node_attr_request_clear(NULL, node->details->uname, rsc_name,
                                        operation, interval_spec, NULL,
                                        attr_options);
     free(rsc_name);
     return rc;
 }
 
 // \return Standard Pacemaker return code
 int
 cli_resource_delete(pcmk_ipc_api_t *controld_api, const char *host_uname,
                     pe_resource_t *rsc, const char *operation,
                     const char *interval_spec, bool just_failures,
                     pe_working_set_t *data_set, gboolean force)
 {
     pcmk__output_t *out = data_set->priv;
     int rc = pcmk_rc_ok;
     pe_node_t *node = NULL;
 
     if (rsc == NULL) {
         return ENXIO;
 
     } else if (rsc->children) {
         GList *lpc = NULL;
 
         for (lpc = rsc->children; lpc != NULL; lpc = lpc->next) {
             pe_resource_t *child = (pe_resource_t *) lpc->data;
 
             rc = cli_resource_delete(controld_api, host_uname, child, operation,
                                      interval_spec, just_failures, data_set,
                                      force);
             if (rc != pcmk_rc_ok) {
                 return rc;
             }
         }
         return pcmk_rc_ok;
 
     } else if (host_uname == NULL) {
         GList *lpc = NULL;
         GList *nodes = g_hash_table_get_values(rsc->known_on);
 
         if(nodes == NULL && force) {
             nodes = pcmk__copy_node_list(data_set->nodes, false);
 
         } else if(nodes == NULL && rsc->exclusive_discover) {
             GHashTableIter iter;
             pe_node_t *node = NULL;
 
             g_hash_table_iter_init(&iter, rsc->allowed_nodes);
             while (g_hash_table_iter_next(&iter, NULL, (void**)&node)) {
                 if(node->weight >= 0) {
                     nodes = g_list_prepend(nodes, node);
                 }
             }
 
         } else if(nodes == NULL) {
             nodes = g_hash_table_get_values(rsc->allowed_nodes);
         }
 
         for (lpc = nodes; lpc != NULL; lpc = lpc->next) {
             node = (pe_node_t *) lpc->data;
 
             if (node->details->online) {
                 rc = cli_resource_delete(controld_api, node->details->uname,
                                          rsc, operation, interval_spec,
                                          just_failures, data_set, force);
             }
             if (rc != pcmk_rc_ok) {
                 g_list_free(nodes);
                 return rc;
             }
         }
 
         g_list_free(nodes);
         return pcmk_rc_ok;
     }
 
     node = pe_find_node(data_set->nodes, host_uname);
 
     if (node == NULL) {
         out->err(out, "Unable to clean up %s because node %s not found",
                  rsc->id, host_uname);
         return ENODEV;
     }
 
     if (!node->details->rsc_discovery_enabled) {
         out->err(out, "Unable to clean up %s because resource discovery disabled on %s",
                  rsc->id, host_uname);
         return EOPNOTSUPP;
     }
 
     if (controld_api == NULL) {
         out->err(out, "Dry run: skipping clean-up of %s on %s due to CIB_file",
                  rsc->id, host_uname);
         return pcmk_rc_ok;
     }
 
     rc = clear_rsc_fail_attrs(rsc, operation, interval_spec, node);
     if (rc != pcmk_rc_ok) {
         out->err(out, "Unable to clean up %s failures on %s: %s",
                  rsc->id, host_uname, pcmk_rc_str(rc));
         return rc;
     }
 
     if (just_failures) {
         rc = clear_rsc_failures(out, controld_api, host_uname, rsc->id, operation,
                                 interval_spec, data_set);
     } else {
         rc = clear_rsc_history(controld_api, host_uname, rsc->id, data_set);
     }
     if (rc != pcmk_rc_ok) {
         out->err(out, "Cleaned %s failures on %s, but unable to clean history: %s",
                  rsc->id, host_uname, pcmk_strerror(rc));
     } else {
         out->info(out, "Cleaned up %s on %s", rsc->id, host_uname);
     }
     return rc;
 }
 
 // \return Standard Pacemaker return code
 int
 cli_cleanup_all(pcmk_ipc_api_t *controld_api, const char *node_name,
                 const char *operation, const char *interval_spec,
                 pe_working_set_t *data_set)
 {
     pcmk__output_t *out = data_set->priv;
     int rc = pcmk_rc_ok;
     int attr_options = pcmk__node_attr_none;
     const char *display_name = node_name? node_name : "all nodes";
 
     if (controld_api == NULL) {
         out->info(out, "Dry run: skipping clean-up of %s due to CIB_file",
                   display_name);
         return rc;
     }
 
     if (node_name) {
         pe_node_t *node = pe_find_node(data_set->nodes, node_name);
 
         if (node == NULL) {
             out->err(out, "Unknown node: %s", node_name);
             return ENXIO;
         }
         if (pe__is_guest_or_remote_node(node)) {
             attr_options |= pcmk__node_attr_remote;
         }
     }
 
     rc = pcmk__node_attr_request_clear(NULL, node_name, NULL, operation,
                                        interval_spec, NULL, attr_options);
     if (rc != pcmk_rc_ok) {
         out->err(out, "Unable to clean up all failures on %s: %s",
                  display_name, pcmk_rc_str(rc));
         return rc;
     }
 
     if (node_name) {
         rc = clear_rsc_failures(out, controld_api, node_name, NULL,
                                 operation, interval_spec, data_set);
         if (rc != pcmk_rc_ok) {
             out->err(out, "Cleaned all resource failures on %s, but unable to clean history: %s",
                      node_name, pcmk_strerror(rc));
             return rc;
         }
     } else {
         for (GList *iter = data_set->nodes; iter; iter = iter->next) {
             pe_node_t *node = (pe_node_t *) iter->data;
 
             rc = clear_rsc_failures(out, controld_api, node->details->uname, NULL,
                                     operation, interval_spec, data_set);
             if (rc != pcmk_rc_ok) {
                 out->err(out, "Cleaned all resource failures on all nodes, but unable to clean history: %s",
                          pcmk_strerror(rc));
                 return rc;
             }
         }
     }
 
     out->info(out, "Cleaned up all resources on %s", display_name);
     return rc;
 }
 
 int
 cli_resource_check(pcmk__output_t *out, cib_t * cib_conn, pe_resource_t *rsc)
 {
     char *role_s = NULL;
     char *managed = NULL;
     pe_resource_t *parent = uber_parent(rsc);
     int rc = pcmk_rc_no_output;
     resource_checks_t *checks = NULL;
 
     find_resource_attr(out, cib_conn, XML_NVPAIR_ATTR_VALUE, parent->id,
                        NULL, NULL, NULL, XML_RSC_ATTR_MANAGED, &managed);
 
     find_resource_attr(out, cib_conn, XML_NVPAIR_ATTR_VALUE, parent->id,
                        NULL, NULL, NULL, XML_RSC_ATTR_TARGET_ROLE, &role_s);
 
     checks = cli_check_resource(rsc, role_s, managed);
 
     if (checks->flags != 0 || checks->lock_node != NULL) {
         rc = out->message(out, "resource-check-list", checks);
     }
 
     free(role_s);
     free(managed);
     free(checks);
     return rc;
 }
 
 // \return Standard Pacemaker return code
 int
 cli_resource_fail(pcmk_ipc_api_t *controld_api, const char *host_uname,
                   const char *rsc_id, pe_working_set_t *data_set)
 {
     crm_notice("Failing %s on %s", rsc_id, host_uname);
     return send_lrm_rsc_op(controld_api, true, host_uname, rsc_id, data_set);
 }
 
 static GHashTable *
 generate_resource_params(pe_resource_t *rsc, pe_node_t *node,
                          pe_working_set_t *data_set)
 {
     GHashTable *params = NULL;
     GHashTable *meta = NULL;
     GHashTable *combined = NULL;
     GHashTableIter iter;
     char *key = NULL;
     char *value = NULL;
 
     combined = pcmk__strkey_table(free, free);
 
     params = pe_rsc_params(rsc, node, data_set);
     if (params != NULL) {
         g_hash_table_iter_init(&iter, params);
         while (g_hash_table_iter_next(&iter, (gpointer *) & key, (gpointer *) & value)) {
             g_hash_table_insert(combined, strdup(key), strdup(value));
         }
     }
 
     meta = pcmk__strkey_table(free, free);
     get_meta_attributes(meta, rsc, node, data_set);
     if (meta != NULL) {
         g_hash_table_iter_init(&iter, meta);
         while (g_hash_table_iter_next(&iter, (gpointer *) & key, (gpointer *) & value)) {
             char *crm_name = crm_meta_name(key);
 
             g_hash_table_insert(combined, crm_name, strdup(value));
         }
         g_hash_table_destroy(meta);
     }
 
     return combined;
 }
 
 bool resource_is_running_on(pe_resource_t *rsc, const char *host)
 {
     bool found = TRUE;
     GList *hIter = NULL;
     GList *hosts = NULL;
 
     if(rsc == NULL) {
         return FALSE;
     }
 
     rsc->fns->location(rsc, &hosts, TRUE);
     for (hIter = hosts; host != NULL && hIter != NULL; hIter = hIter->next) {
         pe_node_t *node = (pe_node_t *) hIter->data;
 
         if(strcmp(host, node->details->uname) == 0) {
             crm_trace("Resource %s is running on %s\n", rsc->id, host);
             goto done;
         } else if(strcmp(host, node->details->id) == 0) {
             crm_trace("Resource %s is running on %s\n", rsc->id, host);
             goto done;
         }
     }
 
     if(host != NULL) {
         crm_trace("Resource %s is not running on: %s\n", rsc->id, host);
         found = FALSE;
 
     } else if(host == NULL && hosts == NULL) {
         crm_trace("Resource %s is not running\n", rsc->id);
         found = FALSE;
     }
 
   done:
     g_list_free(hosts);
     return found;
 }
 
 /*!
  * \internal
  * \brief Create a list of all resources active on host from a given list
  *
  * \param[in] host      Name of host to check whether resources are active
  * \param[in] rsc_list  List of resources to check
  *
  * \return New list of resources from list that are active on host
  */
 static GList *
 get_active_resources(const char *host, GList *rsc_list)
 {
     GList *rIter = NULL;
     GList *active = NULL;
 
     for (rIter = rsc_list; rIter != NULL; rIter = rIter->next) {
         pe_resource_t *rsc = (pe_resource_t *) rIter->data;
 
         /* Expand groups to their members, because if we're restarting a member
          * other than the first, we can't otherwise tell which resources are
          * stopping and starting.
          */
         if (rsc->variant == pe_group) {
             active = g_list_concat(active,
                                    get_active_resources(host, rsc->children));
         } else if (resource_is_running_on(rsc, host)) {
             active = g_list_append(active, strdup(rsc->id));
         }
     }
     return active;
 }
 
 static void dump_list(GList *items, const char *tag) 
 {
     int lpc = 0;
     GList *item = NULL;
 
     for (item = items; item != NULL; item = item->next) {
         crm_trace("%s[%d]: %s", tag, lpc, (char*)item->data);
         lpc++;
     }
 }
 
 static void display_list(pcmk__output_t *out, GList *items, const char *tag)
 {
     GList *item = NULL;
 
     for (item = items; item != NULL; item = item->next) {
         out->info(out, "%s%s", tag, (const char *)item->data);
     }
 }
 
 /*!
  * \internal
  * \brief Upgrade XML to latest schema version and use it as working set input
  *
  * This also updates the working set timestamp to the current time.
  *
  * \param[in] data_set   Working set instance to update
  * \param[in] xml        XML to use as input
  *
  * \return Standard Pacemaker return code
  * \note On success, caller is responsible for freeing memory allocated for
  *       data_set->now.
  * \todo This follows the example of other callers of cli_config_update()
  *       and returns ENOKEY ("Required key not available") if that fails,
  *       but perhaps pcmk_rc_schema_validation would be better in that case.
  */
 int
 update_working_set_xml(pe_working_set_t *data_set, xmlNode **xml)
 {
     if (cli_config_update(xml, NULL, FALSE) == FALSE) {
         return ENOKEY;
     }
     data_set->input = *xml;
     data_set->now = crm_time_new(NULL);
     return pcmk_rc_ok;
 }
 
 /*!
  * \internal
  * \brief Update a working set's XML input based on a CIB query
  *
  * \param[in] data_set   Data set instance to initialize
  * \param[in] cib        Connection to the CIB manager
  *
  * \return Standard Pacemaker return code
  * \note On success, caller is responsible for freeing memory allocated for
  *       data_set->input and data_set->now.
  */
 static int
 update_working_set_from_cib(pcmk__output_t *out, pe_working_set_t * data_set,
                             cib_t *cib)
 {
     xmlNode *cib_xml_copy = NULL;
     int rc = pcmk_rc_ok;
 
     rc = cib->cmds->query(cib, NULL, &cib_xml_copy, cib_scope_local | cib_sync_call);
     rc = pcmk_legacy2rc(rc);
 
     if (rc != pcmk_rc_ok) {
         out->err(out, "Could not obtain the current CIB: %s (%d)", pcmk_strerror(rc), rc);
         return rc;
     }
     rc = update_working_set_xml(data_set, &cib_xml_copy);
     if (rc != pcmk_rc_ok) {
         out->err(out, "Could not upgrade the current CIB XML");
         free_xml(cib_xml_copy);
         return rc;
     }
 
     return rc;
 }
 
 // \return Standard Pacemaker return code
 static int
 update_dataset(pcmk__output_t *out, cib_t *cib, pe_working_set_t * data_set,
                bool simulate)
 {
     char *pid = NULL;
     char *shadow_file = NULL;
     cib_t *shadow_cib = NULL;
     int rc = pcmk_rc_ok;
 
     pe_reset_working_set(data_set);
     rc = update_working_set_from_cib(out, data_set, cib);
     if (rc != pcmk_rc_ok) {
         return rc;
     }
 
     if(simulate) {
         pid = pcmk__getpid_s();
         shadow_cib = cib_shadow_new(pid);
         shadow_file = get_shadow_file(pid);
 
         if (shadow_cib == NULL) {
             out->err(out, "Could not create shadow cib: '%s'", pid);
             rc = ENXIO;
             goto done;
         }
 
         rc = write_xml_file(data_set->input, shadow_file, FALSE);
 
         if (rc < 0) {
             out->err(out, "Could not populate shadow cib: %s (%d)", pcmk_strerror(rc), rc);
             goto done;
         }
 
         rc = shadow_cib->cmds->signon(shadow_cib, crm_system_name, cib_command);
         rc = pcmk_legacy2rc(rc);
 
         if (rc != pcmk_rc_ok) {
             out->err(out, "Could not connect to shadow cib: %s (%d)", pcmk_strerror(rc), rc);
             goto done;
         }
 
         pcmk__schedule_actions(data_set, data_set->input, NULL);
         run_simulation(data_set, shadow_cib, NULL, TRUE);
         rc = update_dataset(out, shadow_cib, data_set, FALSE);
 
     } else {
         cluster_status(data_set);
     }
 
   done:
     /* Do not free data_set->input here, we need rsc->xml to be valid later on */
     cib_delete(shadow_cib);
     free(pid);
 
     if(shadow_file) {
         unlink(shadow_file);
         free(shadow_file);
     }
 
     return rc;
 }
 
 static int
 max_delay_for_resource(pe_working_set_t * data_set, pe_resource_t *rsc) 
 {
     int delay = 0;
     int max_delay = 0;
 
     if(rsc && rsc->children) {
         GList *iter = NULL;
 
         for(iter = rsc->children; iter; iter = iter->next) {
             pe_resource_t *child = (pe_resource_t *)iter->data;
 
             delay = max_delay_for_resource(data_set, child);
             if(delay > max_delay) {
                 double seconds = delay / 1000.0;
                 crm_trace("Calculated new delay of %.1fs due to %s", seconds, child->id);
                 max_delay = delay;
             }
         }
 
     } else if(rsc) {
         char *key = crm_strdup_printf("%s_%s_0", rsc->id, RSC_STOP);
         pe_action_t *stop = custom_action(rsc, key, RSC_STOP, NULL, TRUE, FALSE, data_set);
         const char *value = g_hash_table_lookup(stop->meta, XML_ATTR_TIMEOUT);
 
         max_delay = value? (int) crm_parse_ll(value, NULL) : -1;
         pe_free_action(stop);
     }
 
 
     return max_delay;
 }
 
 static int
 max_delay_in(pe_working_set_t * data_set, GList *resources) 
 {
     int max_delay = 0;
     GList *item = NULL;
 
     for (item = resources; item != NULL; item = item->next) {
         int delay = 0;
         pe_resource_t *rsc = pe_find_resource(data_set->resources, (const char *)item->data);
 
         delay = max_delay_for_resource(data_set, rsc);
 
         if(delay > max_delay) {
             double seconds = delay / 1000.0;
             crm_trace("Calculated new delay of %.1fs due to %s", seconds, rsc->id);
             max_delay = delay;
         }
     }
 
     return 5 + (max_delay / 1000);
 }
 
 #define waiting_for_starts(d, r, h) ((d != NULL) || \
                                     (resource_is_running_on((r), (h)) == FALSE))
 
 /*!
  * \internal
  * \brief Restart a resource (on a particular host if requested).
  *
  * \param[in] rsc        The resource to restart
  * \param[in] host       The host to restart the resource on (or NULL for all)
  * \param[in] timeout_ms Consider failed if actions do not complete in this time
  *                       (specified in milliseconds, but a two-second
  *                       granularity is actually used; if 0, a timeout will be
  *                       calculated based on the resource timeout)
  * \param[in] cib        Connection to the CIB manager
  *
  * \return Standard Pacemaker return code (exits on certain failures)
  */
 int
 cli_resource_restart(pcmk__output_t *out, pe_resource_t *rsc, const char *host,
                      const char *move_lifetime, int timeout_ms, cib_t *cib,
                      int cib_options, gboolean promoted_role_only, gboolean force)
 {
     int rc = pcmk_rc_ok;
     int lpc = 0;
     int before = 0;
     int step_timeout_s = 0;
     int sleep_interval = 2;
     int timeout = timeout_ms / 1000;
 
     bool stop_via_ban = FALSE;
     char *rsc_id = NULL;
     char *orig_target_role = NULL;
 
     GList *list_delta = NULL;
     GList *target_active = NULL;
     GList *current_active = NULL;
     GList *restart_target_active = NULL;
 
     pe_working_set_t *data_set = NULL;
 
     if(resource_is_running_on(rsc, host) == FALSE) {
         const char *id = rsc->clone_name?rsc->clone_name:rsc->id;
         if(host) {
             out->err(out, "%s is not running on %s and so cannot be restarted", id, host);
         } else {
             out->err(out, "%s is not running anywhere and so cannot be restarted", id);
         }
         return ENXIO;
     }
 
     rsc_id = strdup(rsc->id);
     if ((pe_rsc_is_clone(rsc) || pe_bundle_replicas(rsc)) && host) {
         stop_via_ban = TRUE;
     }
 
     /*
       grab full cib
       determine originally active resources
       disable or ban
       poll cib and watch for affected resources to get stopped
       without --timeout, calculate the stop timeout for each step and wait for that
       if we hit --timeout or the service timeout, re-enable or un-ban, report failure and indicate which resources we couldn't take down
       if everything stopped, re-enable or un-ban
       poll cib and watch for affected resources to get started
       without --timeout, calculate the start timeout for each step and wait for that
       if we hit --timeout or the service timeout, report (different) failure and indicate which resources we couldn't bring back up
       report success
 
       Optimizations:
       - use constraints to determine ordered list of affected resources
       - Allow a --no-deps option (aka. --force-restart)
     */
 
     data_set = pe_new_working_set();
     if (data_set == NULL) {
         crm_perror(LOG_ERR, "Could not allocate working set");
         rc = ENOMEM;
         goto done;
     }
     pe__set_working_set_flags(data_set, pe_flag_no_counts|pe_flag_no_compat);
     rc = update_dataset(out, cib, data_set, FALSE);
     if(rc != pcmk_rc_ok) {
         out->err(out, "Could not get new resource list: %s (%d)", pcmk_strerror(rc), rc);
         goto done;
     }
 
     restart_target_active = get_active_resources(host, data_set->resources);
     current_active = get_active_resources(host, data_set->resources);
 
     dump_list(current_active, "Origin");
 
     if (stop_via_ban) {
         /* Stop the clone or bundle instance by banning it from the host */
         out->quiet = true;
         rc = cli_resource_ban(out, rsc_id, host, move_lifetime, NULL, cib,
                               cib_options, promoted_role_only);
 
     } else {
         /* Stop the resource by setting target-role to Stopped.
          * Remember any existing target-role so we can restore it later
          * (though it only makes any difference if it's Slave).
          */
         char *lookup_id = clone_strip(rsc->id);
 
         find_resource_attr(out, cib, XML_NVPAIR_ATTR_VALUE, lookup_id, NULL, NULL,
                            NULL, XML_RSC_ATTR_TARGET_ROLE, &orig_target_role);
         free(lookup_id);
         rc = cli_resource_update_attribute(rsc, rsc_id, NULL, XML_TAG_META_SETS,
                                            NULL, XML_RSC_ATTR_TARGET_ROLE,
                                            RSC_STOPPED, FALSE, cib, cib_options,
                                            data_set, force);
     }
     if(rc != pcmk_rc_ok) {
         out->err(out, "Could not set target-role for %s: %s (%d)", rsc_id, pcmk_strerror(rc), rc);
         if (current_active) {
             g_list_free_full(current_active, free);
         }
         if (restart_target_active) {
             g_list_free_full(restart_target_active, free);
         }
         goto done;
     }
 
     rc = update_dataset(out, cib, data_set, TRUE);
     if(rc != pcmk_rc_ok) {
         out->err(out, "Could not determine which resources would be stopped");
         goto failure;
     }
 
     target_active = get_active_resources(host, data_set->resources);
     dump_list(target_active, "Target");
 
     list_delta = pcmk__subtract_lists(current_active, target_active, (GCompareFunc) strcmp);
     out->info(out, "Waiting for %d resources to stop:", g_list_length(list_delta));
     display_list(out, list_delta, " * ");
 
     step_timeout_s = timeout / sleep_interval;
     while (list_delta != NULL) {
         before = g_list_length(list_delta);
         if(timeout_ms == 0) {
             step_timeout_s = max_delay_in(data_set, list_delta) / sleep_interval;
         }
 
         /* We probably don't need the entire step timeout */
         for(lpc = 0; (lpc < step_timeout_s) && (list_delta != NULL); lpc++) {
             sleep(sleep_interval);
             if(timeout) {
                 timeout -= sleep_interval;
                 crm_trace("%ds remaining", timeout);
             }
             rc = update_dataset(out, cib, data_set, FALSE);
             if(rc != pcmk_rc_ok) {
                 out->err(out, "Could not determine which resources were stopped");
                 goto failure;
             }
 
             if (current_active) {
                 g_list_free_full(current_active, free);
             }
             current_active = get_active_resources(host, data_set->resources);
             g_list_free(list_delta);
             list_delta = pcmk__subtract_lists(current_active, target_active, (GCompareFunc) strcmp);
             dump_list(current_active, "Current");
             dump_list(list_delta, "Delta");
         }
 
         crm_trace("%d (was %d) resources remaining", g_list_length(list_delta), before);
         if(before == g_list_length(list_delta)) {
             /* aborted during stop phase, print the contents of list_delta */
             out->err(out, "Could not complete shutdown of %s, %d resources remaining", rsc_id, g_list_length(list_delta));
             display_list(out, list_delta, " * ");
             rc = ETIME;
             goto failure;
         }
 
     }
 
     if (stop_via_ban) {
         rc = cli_resource_clear(rsc_id, host, NULL, cib, cib_options, TRUE, force);
 
     } else if (orig_target_role) {
         rc = cli_resource_update_attribute(rsc, rsc_id, NULL, XML_TAG_META_SETS,
                                            NULL, XML_RSC_ATTR_TARGET_ROLE,
                                            orig_target_role, FALSE, cib,
                                            cib_options, data_set, force);
         free(orig_target_role);
         orig_target_role = NULL;
     } else {
         rc = cli_resource_delete_attribute(rsc, rsc_id, NULL, XML_TAG_META_SETS,
                                            NULL, XML_RSC_ATTR_TARGET_ROLE, cib,
                                            cib_options, data_set, force);
     }
 
     if(rc != pcmk_rc_ok) {
         out->err(out, "Could not unset target-role for %s: %s (%d)", rsc_id, pcmk_strerror(rc), rc);
         goto done;
     }
 
     if (target_active) {
         g_list_free_full(target_active, free);
     }
     target_active = restart_target_active;
     list_delta = pcmk__subtract_lists(target_active, current_active, (GCompareFunc) strcmp);
     out->info(out, "Waiting for %d resources to start again:", g_list_length(list_delta));
     display_list(out, list_delta, " * ");
 
     step_timeout_s = timeout / sleep_interval;
     while (waiting_for_starts(list_delta, rsc, host)) {
         before = g_list_length(list_delta);
         if(timeout_ms == 0) {
             step_timeout_s = max_delay_in(data_set, list_delta) / sleep_interval;
         }
 
         /* We probably don't need the entire step timeout */
         for (lpc = 0; (lpc < step_timeout_s) && waiting_for_starts(list_delta, rsc, host); lpc++) {
 
             sleep(sleep_interval);
             if(timeout) {
                 timeout -= sleep_interval;
                 crm_trace("%ds remaining", timeout);
             }
 
             rc = update_dataset(out, cib, data_set, FALSE);
             if(rc != pcmk_rc_ok) {
                 out->err(out, "Could not determine which resources were started");
                 goto failure;
             }
 
             if (current_active) {
                 g_list_free_full(current_active, free);
             }
 
             /* It's OK if dependent resources moved to a different node,
              * so we check active resources on all nodes.
              */
             current_active = get_active_resources(NULL, data_set->resources);
             g_list_free(list_delta);
             list_delta = pcmk__subtract_lists(target_active, current_active, (GCompareFunc) strcmp);
             dump_list(current_active, "Current");
             dump_list(list_delta, "Delta");
         }
 
         if(before == g_list_length(list_delta)) {
             /* aborted during start phase, print the contents of list_delta */
             out->err(out, "Could not complete restart of %s, %d resources remaining", rsc_id, g_list_length(list_delta));
             display_list(out, list_delta, " * ");
             rc = ETIME;
             goto failure;
         }
 
     }
 
     rc = pcmk_rc_ok;
     goto done;
 
   failure:
     if (stop_via_ban) {
         cli_resource_clear(rsc_id, host, NULL, cib, cib_options, TRUE, force);
     } else if (orig_target_role) {
         cli_resource_update_attribute(rsc, rsc_id, NULL, XML_TAG_META_SETS, NULL,
                                       XML_RSC_ATTR_TARGET_ROLE, orig_target_role,
                                       FALSE, cib, cib_options, data_set, force);
         free(orig_target_role);
     } else {
         cli_resource_delete_attribute(rsc, rsc_id, NULL, XML_TAG_META_SETS, NULL,
                                       XML_RSC_ATTR_TARGET_ROLE, cib, cib_options,
                                       data_set, force);
     }
 
 done:
     if (list_delta) {
         g_list_free(list_delta);
     }
     if (current_active) {
         g_list_free_full(current_active, free);
     }
     if (target_active && (target_active != restart_target_active)) {
         g_list_free_full(target_active, free);
     }
     if (restart_target_active) {
         g_list_free_full(restart_target_active, free);
     }
     free(rsc_id);
     pe_free_working_set(data_set);
     return rc;
 }
 
 static inline bool action_is_pending(pe_action_t *action)
 {
     if (pcmk_any_flags_set(action->flags, pe_action_optional|pe_action_pseudo)
         || !pcmk_is_set(action->flags, pe_action_runnable)
         || pcmk__str_eq("notify", action->task, pcmk__str_casei)) {
         return false;
     }
     return true;
 }
 
 /*!
  * \internal
  * \brief Return TRUE if any actions in a list are pending
  *
  * \param[in] actions   List of actions to check
  *
  * \return TRUE if any actions in the list are pending, FALSE otherwise
  */
 static bool
 actions_are_pending(GList *actions)
 {
     GList *action;
 
     for (action = actions; action != NULL; action = action->next) {
         pe_action_t *a = (pe_action_t *)action->data;
         if (action_is_pending(a)) {
             crm_notice("Waiting for %s (flags=0x%.8x)", a->uuid, a->flags);
             return TRUE;
         }
     }
     return FALSE;
 }
 
 static void
 print_pending_actions(pcmk__output_t *out, GList *actions)
 {
     GList *action;
 
     out->info(out, "Pending actions:");
     for (action = actions; action != NULL; action = action->next) {
         pe_action_t *a = (pe_action_t *) action->data;
 
         if (!action_is_pending(a)) {
             continue;
         }
 
         if (a->node) {
             out->info(out, "\tAction %d: %s\ton %s", a->id, a->uuid, a->node->details->uname);
         } else {
             out->info(out, "\tAction %d: %s", a->id, a->uuid);
         }
     }
 }
 
 /* For --wait, timeout (in seconds) to use if caller doesn't specify one */
 #define WAIT_DEFAULT_TIMEOUT_S (60 * 60)
 
 /* For --wait, how long to sleep between cluster state checks */
 #define WAIT_SLEEP_S (2)
 
 /*!
  * \internal
  * \brief Wait until all pending cluster actions are complete
  *
  * This waits until either the CIB's transition graph is idle or a timeout is
  * reached.
  *
  * \param[in] timeout_ms Consider failed if actions do not complete in this time
  *                       (specified in milliseconds, but one-second granularity
  *                       is actually used; if 0, a default will be used)
  * \param[in] cib        Connection to the CIB manager
  *
  * \return Standard Pacemaker return code
  */
 int
 wait_till_stable(pcmk__output_t *out, int timeout_ms, cib_t * cib)
 {
     pe_working_set_t *data_set = NULL;
     int rc = pcmk_rc_ok;
     int timeout_s = timeout_ms? ((timeout_ms + 999) / 1000) : WAIT_DEFAULT_TIMEOUT_S;
     time_t expire_time = time(NULL) + timeout_s;
     time_t time_diff;
     bool printed_version_warning = out->is_quiet(out); // i.e. don't print if quiet
 
     data_set = pe_new_working_set();
     if (data_set == NULL) {
         return ENOMEM;
     }
     pe__set_working_set_flags(data_set, pe_flag_no_counts|pe_flag_no_compat);
 
     do {
 
         /* Abort if timeout is reached */
         time_diff = expire_time - time(NULL);
         if (time_diff > 0) {
             crm_info("Waiting up to %ld seconds for cluster actions to complete", time_diff);
         } else {
             print_pending_actions(out, data_set->actions);
             pe_free_working_set(data_set);
             return ETIME;
         }
         if (rc == pcmk_rc_ok) { /* this avoids sleep on first loop iteration */
             sleep(WAIT_SLEEP_S);
         }
 
         /* Get latest transition graph */
         pe_reset_working_set(data_set);
         rc = update_working_set_from_cib(out, data_set, cib);
         if (rc != pcmk_rc_ok) {
             pe_free_working_set(data_set);
             return rc;
         }
         pcmk__schedule_actions(data_set, data_set->input, NULL);
 
         if (!printed_version_warning) {
             /* If the DC has a different version than the local node, the two
              * could come to different conclusions about what actions need to be
              * done. Warn the user in this case.
              *
              * @TODO A possible long-term solution would be to reimplement the
              * wait as a new controller operation that would be forwarded to the
              * DC. However, that would have potential problems of its own.
              */
             const char *dc_version = g_hash_table_lookup(data_set->config_hash,
                                                          "dc-version");
 
             if (!pcmk__str_eq(dc_version, PACEMAKER_VERSION "-" BUILD_VERSION, pcmk__str_casei)) {
                 out->info(out, "warning: wait option may not work properly in "
                           "mixed-version cluster");
                 printed_version_warning = TRUE;
             }
         }
 
     } while (actions_are_pending(data_set->actions));
 
     pe_free_working_set(data_set);
     return rc;
 }
 
 crm_exit_t
 cli_resource_execute_from_params(pcmk__output_t *out, const char *rsc_name,
                                  const char *rsc_class, const char *rsc_prov,
                                  const char *rsc_type, const char *action,
                                  GHashTable *params, GHashTable *override_hash,
                                  int timeout_ms, int resource_verbose, gboolean force)
 {
     GHashTable *params_copy = NULL;
     crm_exit_t exit_code = CRM_EX_OK;
     svc_action_t *op = NULL;
 
     if (pcmk__str_eq(rsc_class, PCMK_RESOURCE_CLASS_STONITH, pcmk__str_casei)) {
         out->err(out, "Sorry, the %s option doesn't support %s resources yet",
                  action, rsc_class);
         crm_exit(CRM_EX_UNIMPLEMENT_FEATURE);
     }
 
     /* If no timeout was provided, grab the default. */
     if (timeout_ms == 0) {
         timeout_ms = crm_get_msec(CRM_DEFAULT_OP_TIMEOUT_S);
     }
 
     /* add meta_timeout env needed by some resource agents */
     g_hash_table_insert(params, strdup("CRM_meta_timeout"),
                         crm_strdup_printf("%d", timeout_ms));
 
     /* add crm_feature_set env needed by some resource agents */
     g_hash_table_insert(params, strdup(XML_ATTR_CRM_VERSION), strdup(CRM_FEATURE_SET));
 
     /* resources_action_create frees the params hash table it's passed, but we
      * may need to reuse it in a second call to resources_action_create.  Thus
      * we'll make a copy here so that gets freed and the original remains for
      * reuse.
      */
-    params_copy = crm_str_table_dup(params);
+    params_copy = pcmk__str_table_dup(params);
 
     op = resources_action_create(rsc_name, rsc_class, rsc_prov, rsc_type, action, 0,
                                  timeout_ms, params_copy, 0);
     if (op == NULL) {
         /* Re-run with stderr enabled so we can display a sane error message */
         crm_enable_stderr(TRUE);
-        params_copy = crm_str_table_dup(params);
+        params_copy = pcmk__str_table_dup(params);
         op = resources_action_create(rsc_name, rsc_class, rsc_prov, rsc_type, action, 0,
                                      timeout_ms, params_copy, 0);
 
         /* Callers of cli_resource_execute expect that the params hash table will
          * be freed.  That function uses this one, so for that reason and for
          * making the two act the same, we should free the hash table here too.
          */
         g_hash_table_destroy(params);
 
         /* We know op will be NULL, but this makes static analysis happy */
         services_action_free(op);
         crm_exit(CRM_EX_DATAERR);
         return exit_code; // Never reached, but helps static analysis
     }
 
     setenv("HA_debug", resource_verbose > 0 ? "1" : "0", 1);
     if(resource_verbose > 1) {
         setenv("OCF_TRACE_RA", "1", 1);
     }
 
     /* A resource agent using the standard ocf-shellfuncs library will not print
      * messages to stderr if it doesn't have a controlling terminal (e.g. if
      * crm_resource is called via script or ssh). This forces it to do so.
      */
     setenv("OCF_TRACE_FILE", "/dev/stderr", 0);
 
     if (override_hash) {
         GHashTableIter iter;
         char *name = NULL;
         char *value = NULL;
 
         g_hash_table_iter_init(&iter, override_hash);
         while (g_hash_table_iter_next(&iter, (gpointer *) & name, (gpointer *) & value)) {
             out->info(out, "Overriding the cluster configuration for '%s' with '%s' = '%s'",
                       rsc_name, name, value);
             g_hash_table_replace(op->params, strdup(name), strdup(value));
         }
     }
 
     if (services_action_sync(op)) {
         exit_code = op->rc;
 
         if (op->status == PCMK_LRM_OP_DONE) {
             out->info(out, "Operation %s for %s (%s:%s:%s) returned: '%s' (%d)",
                       action, rsc_name, rsc_class, rsc_prov ? rsc_prov : "", rsc_type,
                       services_ocf_exitcode_str(op->rc), op->rc);
         } else {
             out->err(out, "Operation %s for %s (%s:%s:%s) failed: '%s' (%d)",
                      action, rsc_name, rsc_class, rsc_prov ? rsc_prov : "", rsc_type,
                      services_lrm_status_str(op->status), op->status);
         }
 
         /* hide output for validate-all if not in verbose */
         if (resource_verbose == 0 && pcmk__str_eq(action, "validate-all", pcmk__str_casei))
             goto done;
 
         if (op->stdout_data || op->stderr_data) {
             out->subprocess_output(out, op->rc, op->stdout_data, op->stderr_data);
         }
     } else {
         exit_code = op->rc == 0 ? CRM_EX_ERROR : op->rc;
     }
 
 done:
     services_action_free(op);
     /* See comment above about why we free params here. */
     g_hash_table_destroy(params);
     return exit_code;
 }
 
 crm_exit_t
 cli_resource_execute(pe_resource_t *rsc, const char *requested_name,
                      const char *rsc_action, GHashTable *override_hash,
                      int timeout_ms, cib_t * cib, pe_working_set_t *data_set,
                      int resource_verbose, gboolean force)
 {
     pcmk__output_t *out = data_set->priv;
     crm_exit_t exit_code = CRM_EX_OK;
     const char *rid = NULL;
     const char *rtype = NULL;
     const char *rprov = NULL;
     const char *rclass = NULL;
     const char *action = NULL;
     GHashTable *params = NULL;
 
     if (pcmk__str_eq(rsc_action, "validate", pcmk__str_casei)) {
         action = "validate-all";
 
     } else if (pcmk__str_eq(rsc_action, "force-check", pcmk__str_casei)) {
         action = "monitor";
 
     } else if (pcmk__str_eq(rsc_action, "force-stop", pcmk__str_casei)) {
         action = rsc_action+6;
 
     } else if (pcmk__strcase_any_of(rsc_action, "force-start", "force-demote",
                                     "force-promote", NULL)) {
         action = rsc_action+6;
 
         if(pe_rsc_is_clone(rsc)) {
             GList *nodes = cli_resource_search(rsc, requested_name, data_set);
             if(nodes != NULL && force == FALSE) {
                 out->err(out, "It is not safe to %s %s here: the cluster claims it is already active",
                          action, rsc->id);
                 out->err(out, "Try setting target-role=Stopped first or specifying "
                          "the force option");
                 return CRM_EX_UNSAFE;
             }
 
             g_list_free_full(nodes, free);
         }
 
     } else {
         action = rsc_action;
     }
 
     if(pe_rsc_is_clone(rsc)) {
         /* Grab the first child resource in the hope it's not a group */
         rsc = rsc->children->data;
     }
 
     if(rsc->variant == pe_group) {
         out->err(out, "Sorry, the %s option doesn't support group resources", rsc_action);
         return CRM_EX_UNIMPLEMENT_FEATURE;
     }
 
     rclass = crm_element_value(rsc->xml, XML_AGENT_ATTR_CLASS);
     rprov = crm_element_value(rsc->xml, XML_AGENT_ATTR_PROVIDER);
     rtype = crm_element_value(rsc->xml, XML_ATTR_TYPE);
 
     params = generate_resource_params(rsc, NULL /* @TODO use local node */,
                                       data_set);
 
     if (timeout_ms == 0) {
         timeout_ms = pe_get_configured_timeout(rsc, action, data_set);
     }
 
     rid = pe_rsc_is_anon_clone(rsc->parent)? requested_name : rsc->id;
 
     exit_code = cli_resource_execute_from_params(out, rid, rclass, rprov, rtype, action,
                                                  params, override_hash, timeout_ms,
                                                  resource_verbose, force);
     return exit_code;
 }
 
 // \return Standard Pacemaker return code
 int
 cli_resource_move(pe_resource_t *rsc, const char *rsc_id, const char *host_name,
                   const char *move_lifetime, cib_t *cib, int cib_options,
                   pe_working_set_t *data_set, gboolean promoted_role_only,
                   gboolean force)
 {
     pcmk__output_t *out = data_set->priv;
     int rc = pcmk_rc_ok;
     unsigned int count = 0;
     pe_node_t *current = NULL;
     pe_node_t *dest = pe_find_node(data_set->nodes, host_name);
     bool cur_is_dest = FALSE;
 
     if (dest == NULL) {
         return pcmk_rc_node_unknown;
     }
 
     if (promoted_role_only && !pcmk_is_set(rsc->flags, pe_rsc_promotable)) {
         pe_resource_t *p = uber_parent(rsc);
 
         if (pcmk_is_set(p->flags, pe_rsc_promotable)) {
             out->info(out, "Using parent '%s' for move instead of '%s'.", rsc->id, rsc_id);
             rsc_id = p->id;
             rsc = p;
 
         } else {
             out->info(out, "Ignoring master option: %s is not promotable", rsc_id);
             promoted_role_only = FALSE;
         }
     }
 
     current = pe__find_active_requires(rsc, &count);
 
     if (pcmk_is_set(rsc->flags, pe_rsc_promotable)) {
         GList *iter = NULL;
         unsigned int master_count = 0;
         pe_node_t *master_node = NULL;
 
         for(iter = rsc->children; iter; iter = iter->next) {
             pe_resource_t *child = (pe_resource_t *)iter->data;
             enum rsc_role_e child_role = child->fns->state(child, TRUE);
 
             if(child_role == RSC_ROLE_MASTER) {
                 rsc = child;
                 master_node = pe__current_node(child);
                 master_count++;
             }
         }
         if (promoted_role_only || master_count) {
             count = master_count;
             current = master_node;
         }
 
     }
 
     if (count > 1) {
         if (pe_rsc_is_clone(rsc)) {
             current = NULL;
         } else {
             return pcmk_rc_multiple;
         }
     }
 
     if (current && (current->details == dest->details)) {
         cur_is_dest = TRUE;
         if (force) {
             crm_info("%s is already %s on %s, reinforcing placement with location constraint.",
                      rsc_id, promoted_role_only?"promoted":"active", dest->details->uname);
         } else {
             return pcmk_rc_already;
         }
     }
 
     /* Clear any previous prefer constraints across all nodes. */
     cli_resource_clear(rsc_id, NULL, data_set->nodes, cib, cib_options, FALSE, force);
 
     /* Clear any previous ban constraints on 'dest'. */
     cli_resource_clear(rsc_id, dest->details->uname, data_set->nodes, cib,
                        cib_options, TRUE, force);
 
     /* Record an explicit preference for 'dest' */
     rc = cli_resource_prefer(out, rsc_id, dest->details->uname, move_lifetime,
                              cib, cib_options, promoted_role_only);
 
     crm_trace("%s%s now prefers node %s%s",
               rsc->id, promoted_role_only?" (master)":"", dest->details->uname, force?"(forced)":"");
 
     /* only ban the previous location if current location != destination location.
      * it is possible to use -M to enforce a location without regard of where the
      * resource is currently located */
     if(force && (cur_is_dest == FALSE)) {
         /* Ban the original location if possible */
         if(current) {
             (void)cli_resource_ban(out, rsc_id, current->details->uname, move_lifetime,
                                    NULL, cib, cib_options, promoted_role_only);
 
         } else if(count > 1) {
             out->info(out, "Resource '%s' is currently %s in %d locations. "
                       "One may now move to %s",
                       rsc_id, (promoted_role_only? "promoted" : "active"),
                       count, dest->details->uname);
             out->info(out, "To prevent '%s' from being %s at a specific location, "
                       "specify a node.",
                       rsc_id, (promoted_role_only? "promoted" : "active"));
 
         } else {
             crm_trace("Not banning %s from its current location: not active", rsc_id);
         }
     }
 
     return rc;
 }