From: Jonathan Rajotte Date: Tue, 13 Apr 2021 18:49:52 +0000 (-0400) Subject: action executor: use an execution context to validate enqueued action before execution X-Git-Tag: v2.13.0-rc1~81 X-Git-Url: https://git.lttng.org/?p=lttng-tools.git;a=commitdiff_plain;h=72365501d3148ca977a09bad8de0ec51b427bdd8 action executor: use an execution context to validate enqueued action before execution Problem ====== Let's walk over the following scenario: Trigger my_trigger: condition: ust event a action: start session S At time T, session S exists. At T + 1, the event A is hit. At T + 2, the tracer event notification is received and the work item is queued. Here session S have an id of 1. At T + 3, the session S is destroyed and a new session S is created, with a resulting id of 200. At T +4, the work item is popped from the queue and begin execution and will start session S with an id of 200 instead of the session S id 1 that was present at the queuing phase. We effectively want to assign an execution context to an action at the queuing phase and validate that the execution context is still valid upon actual execution. Solution ===== Instead of iterating over the trigger's actions, we prepare an array of work sub-item (action_work_subitem) that effectively is a flattened and augmented array of the trigger's action. For now only the session id is an action level execution context. Each action handler is responsible of validating the execution context before performing the action. Signed-off-by: Jonathan Rajotte Signed-off-by: Jérémie Galarneau Change-Id: I72fbe8d52d77d1d696fa7d99b662b77e9dad02d5 --- diff --git a/src/bin/lttng-sessiond/action-executor.c b/src/bin/lttng-sessiond/action-executor.c index f150dbb44..8e3f79813 100644 --- a/src/bin/lttng-sessiond/action-executor.c +++ b/src/bin/lttng-sessiond/action-executor.c @@ -12,6 +12,7 @@ #include "notification-thread-internal.h" #include "session.h" #include "thread.h" +#include #include #include #include @@ -35,8 +36,50 @@ #define THREAD_NAME "Action Executor" #define MAX_QUEUED_WORK_COUNT 8192 +/* + * A work item is composed of a dynamic array of sub-items which + * represent a flattened, and augmented, version of a trigger's actions. + * + * We cannot rely solely on the trigger's actions since each action can have an + * execution context we need to comply with. + * + * The notion of execution context is required since for some actions the + * associated object are referenced by name and not by id. This can lead to + * a number of ambiguities when executing an action work item. + * + * For example, let's take a simple trigger such as: + * - condition: ust event a + * - action: start session S + * + * At time T, session S exists. + * At T + 1, the event A is hit. + * At T + 2, the tracer event notification is received and the work item is + * queued. Here session S have an id of 1. + * At T + 3, the session S is destroyed and a new session S is created, with a + * resulting id of 200. + * At T +4, the work item is popped from the queue and begin execution and will + * start session S with an id of 200 instead of the session S id 1 that was + * present at the queuing phase. + * + * The context to be respected is the one when the work item is queued. If the + * execution context is not the same at the moment of execution, we skip the + * execution of that sub-item. + * + * It is the same policy in regards to the validity of the associated + * trigger object at the moment of execution, if the trigger is found to be + * unregistered, the execution is skipped. + */ + struct action_work_item { uint64_t id; + + /* + * The actions to be executed with their respective execution context. + * See struct `action_work_subitem`. + */ + struct lttng_dynamic_array *subitems; + + /* Execution context data */ struct lttng_trigger *trigger; struct lttng_evaluation *evaluation; struct notification_client_list *client_list; @@ -44,6 +87,14 @@ struct action_work_item { struct cds_list_head list_node; }; +struct action_work_subitem { + struct lttng_action *action; + struct { + /* Used by actions targeting a session. */ + LTTNG_OPTIONAL(uint64_t) session_id; + } context; +}; + struct action_executor { struct lttng_thread *thread; struct notification_thread_handle *notification_thread_handle; @@ -63,33 +114,33 @@ struct action_executor { */ typedef int (*action_executor_handler)(struct action_executor *executor, const struct action_work_item *, - struct lttng_action *action); + struct action_work_subitem *item); static int action_executor_notify_handler(struct action_executor *executor, const struct action_work_item *, - struct lttng_action *); + struct action_work_subitem *); static int action_executor_start_session_handler( struct action_executor *executor, const struct action_work_item *, - struct lttng_action *); + struct action_work_subitem *); static int action_executor_stop_session_handler( struct action_executor *executor, const struct action_work_item *, - struct lttng_action *); + struct action_work_subitem *); static int action_executor_rotate_session_handler( struct action_executor *executor, const struct action_work_item *, - struct lttng_action *); + struct action_work_subitem *); static int action_executor_snapshot_session_handler( struct action_executor *executor, const struct action_work_item *, - struct lttng_action *); + struct action_work_subitem *); static int action_executor_group_handler(struct action_executor *executor, const struct action_work_item *, - struct lttng_action *); + struct action_work_subitem *); static int action_executor_generic_handler(struct action_executor *executor, const struct action_work_item *, - struct lttng_action *); + struct action_work_subitem *); static const action_executor_handler action_executors[] = { [LTTNG_ACTION_TYPE_NOTIFY] = action_executor_notify_handler, @@ -100,6 +151,20 @@ static const action_executor_handler action_executors[] = { [LTTNG_ACTION_TYPE_GROUP] = action_executor_group_handler, }; +/* Forward declaration */ +static int add_action_to_subitem_array(struct lttng_action *action, + struct lttng_dynamic_array *subitems); + +static int populate_subitem_array_from_trigger(struct lttng_trigger *trigger, + struct lttng_dynamic_array *subitems); + +static void action_work_subitem_destructor(void *element) +{ + struct action_work_subitem *subitem = element; + + lttng_action_put(subitem->action); +} + static const char *get_action_name(const struct lttng_action *action) { const enum lttng_action_type action_type = lttng_action_get_type(action); @@ -190,7 +255,7 @@ end: static int action_executor_notify_handler(struct action_executor *executor, const struct action_work_item *work_item, - struct lttng_action *action) + struct action_work_subitem *item) { return notification_client_list_send_evaluation(work_item->client_list, work_item->trigger, @@ -204,13 +269,14 @@ static int action_executor_notify_handler(struct action_executor *executor, static int action_executor_start_session_handler( struct action_executor *executor, const struct action_work_item *work_item, - struct lttng_action *action) + struct action_work_subitem *item) { int ret = 0; const char *session_name; enum lttng_action_status action_status; struct ltt_session *session; enum lttng_error_code cmd_ret; + struct lttng_action *action = item->action; action_status = lttng_action_start_session_get_session_name( action, &session_name); @@ -221,6 +287,19 @@ static int action_executor_start_session_handler( goto end; } + /* + * Validate if at the moment of the action was queued the session + * existed. If not skip the action altogether. + */ + if (!item->context.session_id.is_set) { + DBG("Session `%s` was not present at the moment the work item was enqueued for %s` action of trigger `%s`", + session_name, get_action_name(action), + get_trigger_name(work_item->trigger)); + lttng_action_increase_execution_failure_count(action); + ret = 0; + goto end; + } + session_lock_list(); session = session_find_by_name(session_name); if (!session) { @@ -230,6 +309,22 @@ static int action_executor_start_session_handler( goto error_unlock_list; } + /* + * Check if the session id is the same as when the work item was + * enqueued. + */ + if (session->id != LTTNG_OPTIONAL_GET(item->context.session_id)) { + DBG("Session id for session `%s` (id: %" PRIu64 + " is not the same that was sampled (id: %" PRIu64 + " at the moment the work item was enqueued for %s` action of trigger `%s`", + session_name, session->id, + LTTNG_OPTIONAL_GET(item->context.session_id), + get_action_name(action), + get_trigger_name(work_item->trigger)); + ret = 0; + goto error_unlock_list; + } + session_lock(session); if (!is_trigger_allowed_for_session(work_item->trigger, session)) { goto error_dispose_session; @@ -265,13 +360,14 @@ end: static int action_executor_stop_session_handler( struct action_executor *executor, const struct action_work_item *work_item, - struct lttng_action *action) + struct action_work_subitem *item) { int ret = 0; const char *session_name; enum lttng_action_status action_status; struct ltt_session *session; enum lttng_error_code cmd_ret; + struct lttng_action *action = item->action; action_status = lttng_action_stop_session_get_session_name( action, &session_name); @@ -282,6 +378,19 @@ static int action_executor_stop_session_handler( goto end; } + /* + * Validate if, at the moment the action was queued, the target session + * existed. If not, skip the action altogether. + */ + if (!item->context.session_id.is_set) { + DBG("Session `%s` was not present at the moment the work item was enqueued for %s` action of trigger `%s`", + session_name, get_action_name(action), + get_trigger_name(work_item->trigger)); + lttng_action_increase_execution_failure_count(action); + ret = 0; + goto end; + } + session_lock_list(); session = session_find_by_name(session_name); if (!session) { @@ -292,6 +401,22 @@ static int action_executor_stop_session_handler( goto error_unlock_list; } + /* + * Check if the session id is the same as when the work item was + * enqueued + */ + if (session->id != LTTNG_OPTIONAL_GET(item->context.session_id)) { + DBG("Session id for session `%s` (id: %" PRIu64 + " is not the same that was sampled (id: %" PRIu64 + " at the moment the work item was enqueued for %s` action of trigger `%s`", + session_name, session->id, + LTTNG_OPTIONAL_GET(item->context.session_id), + get_action_name(action), + get_trigger_name(work_item->trigger)); + ret = 0; + goto error_unlock_list; + } + session_lock(session); if (!is_trigger_allowed_for_session(work_item->trigger, session)) { goto error_dispose_session; @@ -327,13 +452,14 @@ end: static int action_executor_rotate_session_handler( struct action_executor *executor, const struct action_work_item *work_item, - struct lttng_action *action) + struct action_work_subitem *item) { int ret = 0; const char *session_name; enum lttng_action_status action_status; struct ltt_session *session; enum lttng_error_code cmd_ret; + struct lttng_action *action = item->action; action_status = lttng_action_rotate_session_get_session_name( action, &session_name); @@ -344,6 +470,19 @@ static int action_executor_rotate_session_handler( goto end; } + /* + * Validate if, at the moment the action was queued, the target session + * existed. If not, skip the action altogether. + */ + if (!item->context.session_id.is_set) { + DBG("Session `%s` was not present at the moment the work item was enqueued for %s` action of trigger `%s`", + session_name, get_action_name(action), + get_trigger_name(work_item->trigger)); + lttng_action_increase_execution_failure_count(action); + ret = 0; + goto end; + } + session_lock_list(); session = session_find_by_name(session_name); if (!session) { @@ -354,6 +493,22 @@ static int action_executor_rotate_session_handler( goto error_unlock_list; } + /* + * Check if the session id is the same as when the work item was + * enqueued. + */ + if (session->id != LTTNG_OPTIONAL_GET(item->context.session_id)) { + DBG("Session id for session `%s` (id: %" PRIu64 + " is not the same that was sampled (id: %" PRIu64 + " at the moment the work item was enqueued for %s` action of trigger `%s`", + session_name, session->id, + LTTNG_OPTIONAL_GET(item->context.session_id), + get_action_name(action), + get_trigger_name(work_item->trigger)); + ret = 0; + goto error_unlock_list; + } + session_lock(session); if (!is_trigger_allowed_for_session(work_item->trigger, session)) { goto error_dispose_session; @@ -396,7 +551,7 @@ end: static int action_executor_snapshot_session_handler( struct action_executor *executor, const struct action_work_item *work_item, - struct lttng_action *action) + struct action_work_subitem *item) { int ret = 0; const char *session_name; @@ -408,6 +563,20 @@ static int action_executor_snapshot_session_handler( const struct lttng_snapshot_output *snapshot_output = &default_snapshot_output; enum lttng_error_code cmd_ret; + struct lttng_action *action = item->action; + + /* + * Validate if, at the moment the action was queued, the target session + * existed. If not, skip the action altogether. + */ + if (!item->context.session_id.is_set) { + DBG("Session `%s` was not present at the moment the work item was enqueued for %s` action of trigger `%s`", + session_name, get_action_name(action), + get_trigger_name(work_item->trigger)); + lttng_action_increase_execution_failure_count(action); + ret = 0; + goto end; + } action_status = lttng_action_snapshot_session_get_session_name( action, &session_name); @@ -438,6 +607,21 @@ static int action_executor_snapshot_session_handler( goto error_unlock_list; } + /* + * Check if the session id is the same as when the work item was + * enqueued. + */ + if (session->id != LTTNG_OPTIONAL_GET(item->context.session_id)) { + DBG("Session id for session `%s` (id: %" PRIu64 + " is not the same that was sampled (id: %" PRIu64 + " at the moment the work item was enqueued for %s` action of trigger `%s`", + session_name, session->id, + LTTNG_OPTIONAL_GET(item->context.session_id), + get_action_name(action), + get_trigger_name(work_item->trigger)); + ret = 0; + goto error_unlock_list; + } session_lock(session); if (!is_trigger_allowed_for_session(work_item->trigger, session)) { @@ -469,43 +653,18 @@ end: static int action_executor_group_handler(struct action_executor *executor, const struct action_work_item *work_item, - struct lttng_action *action_group) + struct action_work_subitem *item) { - int ret = 0; - unsigned int i, count; - enum lttng_action_status action_status; - - action_status = lttng_action_group_get_count(action_group, &count); - if (action_status != LTTNG_ACTION_STATUS_OK) { - /* Fatal error. */ - ERR("Failed to get count of action in action group"); - ret = -1; - goto end; - } - - DBG("Action group has %u action%s", count, count != 1 ? "s" : ""); - for (i = 0; i < count; i++) { - struct lttng_action *action = - lttng_action_group_borrow_mutable_at_index( - action_group, i); - - ret = action_executor_generic_handler( - executor, work_item, action); - if (ret) { - ERR("Stopping the execution of the action group of trigger `%s` following a fatal error", - get_trigger_name(work_item->trigger)); - goto end; - } - } -end: - return ret; + ERR("Execution of a group action by the action executor should never occur"); + abort(); } static int action_executor_generic_handler(struct action_executor *executor, const struct action_work_item *work_item, - struct lttng_action *action) + struct action_work_subitem *item) { int ret; + struct lttng_action *action = item->action; const enum lttng_action_type action_type = lttng_action_get_type(action); assert(action_type != LTTNG_ACTION_TYPE_UNKNOWN); @@ -525,7 +684,7 @@ static int action_executor_generic_handler(struct action_executor *executor, get_action_name(action), get_trigger_name(work_item->trigger), work_item->id); - ret = action_executors[action_type](executor, work_item, action); + ret = action_executors[action_type](executor, work_item, item); end: return ret; } @@ -534,12 +693,23 @@ static int action_work_item_execute(struct action_executor *executor, struct action_work_item *work_item) { int ret; - struct lttng_action *action = - lttng_trigger_get_action(work_item->trigger); + size_t count, i; DBG("Starting execution of action work item %" PRIu64 " of trigger `%s`", work_item->id, get_trigger_name(work_item->trigger)); - ret = action_executor_generic_handler(executor, work_item, action); + + count = lttng_dynamic_array_get_count(work_item->subitems); + for (i = 0; i < count; i++) { + struct action_work_subitem *item; + + item = lttng_dynamic_array_get_element(work_item->subitems, i); + ret = action_executor_generic_handler( + executor, work_item, item); + if (ret) { + goto end; + } + } +end: DBG("Completed execution of action work item %" PRIu64 " of trigger `%s`", work_item->id, get_trigger_name(work_item->trigger)); return ret; @@ -550,6 +720,7 @@ static void action_work_item_destroy(struct action_work_item *work_item) lttng_trigger_put(work_item->trigger); lttng_evaluation_destroy(work_item->evaluation); notification_client_list_put(work_item->client_list); + lttng_dynamic_array_reset(work_item->subitems); free(work_item); } @@ -723,31 +894,55 @@ void action_executor_destroy(struct action_executor *executor) } /* RCU read-lock must be held by the caller. */ -enum action_executor_status action_executor_enqueue( +enum action_executor_status action_executor_enqueue_trigger( struct action_executor *executor, struct lttng_trigger *trigger, struct lttng_evaluation *evaluation, const struct lttng_credentials *object_creds, struct notification_client_list *client_list) { + int ret; enum action_executor_status executor_status = ACTION_EXECUTOR_STATUS_OK; const uint64_t work_item_id = executor->next_work_item_id++; struct action_work_item *work_item; bool signal = false; + struct lttng_dynamic_array *subitems = NULL; + + assert(trigger); + + /* Build the array of action work subitems for the passed trigger. */ + subitems = zmalloc(sizeof(*subitems)); + if (!subitems) { + PERROR("Failed to allocate action executor subitems array: trigger name = `%s`", + get_trigger_name(trigger)); + executor_status = ACTION_EXECUTOR_STATUS_ERROR; + goto error_unlock; + } + + lttng_dynamic_array_init(subitems, sizeof(struct action_work_subitem), + action_work_subitem_destructor); + + ret = populate_subitem_array_from_trigger(trigger, subitems); + if (ret) { + ERR("Failed to populate work item sub items on behalf of trigger: trigger name = `%s`", + get_trigger_name(trigger)); + executor_status = ACTION_EXECUTOR_STATUS_ERROR; + goto error_unlock; + } pthread_mutex_lock(&executor->work.lock); /* Check for queue overflow. */ if (executor->work.pending_count >= MAX_QUEUED_WORK_COUNT) { /* Most likely spammy, remove if it is the case. */ - DBG("Refusing to enqueue action for trigger `%s` as work item %" PRIu64 - " (overflow)", get_trigger_name(trigger), work_item_id); + DBG("Refusing to enqueue action for trigger (overflow): trigger name = `%s`, work item id = %" PRIu64, + get_trigger_name(trigger), work_item_id); executor_status = ACTION_EXECUTOR_STATUS_OVERFLOW; goto error_unlock; } work_item = zmalloc(sizeof(*work_item)); if (!work_item) { - PERROR("Failed to allocate action executor work item on behalf of trigger `%s`", + PERROR("Failed to allocate action executor work item: trigger name = '%s'", get_trigger_name(trigger)); executor_status = ACTION_EXECUTOR_STATUS_ERROR; goto error_unlock; @@ -763,6 +958,8 @@ enum action_executor_status action_executor_enqueue( *work_item = (typeof(*work_item)){ .id = work_item_id, + /* Ownership transferred to the work item. */ + .subitems = subitems, .trigger = trigger, /* Ownership transferred to the work item. */ .evaluation = evaluation, @@ -776,9 +973,10 @@ enum action_executor_status action_executor_enqueue( }; evaluation = NULL; + subitems = NULL; cds_list_add_tail(&work_item->list_node, &executor->work.list); executor->work.pending_count++; - DBG("Enqueued action for trigger `%s` as work item #%" PRIu64, + DBG("Enqueued action for trigger: trigger name = `%s`, work item id = %" PRIu64, get_trigger_name(trigger), work_item_id); signal = true; @@ -789,5 +987,132 @@ error_unlock: pthread_mutex_unlock(&executor->work.lock); lttng_evaluation_destroy(evaluation); + if (subitems) { + lttng_dynamic_array_reset(subitems); + free(subitems); + } return executor_status; } + +static int add_action_to_subitem_array(struct lttng_action *action, + struct lttng_dynamic_array *subitems) +{ + int ret; + enum lttng_action_type type = lttng_action_get_type(action); + const char *session_name = NULL; + enum lttng_action_status status; + struct action_work_subitem subitem = { + .action = NULL, + .context = { + .session_id = LTTNG_OPTIONAL_INIT_UNSET, + }, + }; + + assert(action); + assert(subitems); + + if (type == LTTNG_ACTION_TYPE_GROUP) { + unsigned int count, i; + + status = lttng_action_group_get_count(action, &count); + assert(status == LTTNG_ACTION_STATUS_OK); + + for (i = 0; i < count; i++) { + struct lttng_action *inner_action = NULL; + + inner_action = lttng_action_group_borrow_mutable_at_index( + action, i); + assert(inner_action); + ret = add_action_to_subitem_array( + inner_action, subitems); + if (ret) { + goto end; + } + } + + /* + * Go directly to the end since there is no need to add the + * group action by itself to the subitems array. + */ + goto end; + } + + /* Gather execution context. */ + switch (type) { + case LTTNG_ACTION_TYPE_NOTIFY: + break; + case LTTNG_ACTION_TYPE_START_SESSION: + status = lttng_action_start_session_get_session_name( + action, &session_name); + assert(status == LTTNG_ACTION_STATUS_OK); + break; + case LTTNG_ACTION_TYPE_STOP_SESSION: + status = lttng_action_stop_session_get_session_name( + action, &session_name); + assert(status == LTTNG_ACTION_STATUS_OK); + break; + case LTTNG_ACTION_TYPE_ROTATE_SESSION: + status = lttng_action_rotate_session_get_session_name( + action, &session_name); + assert(status == LTTNG_ACTION_STATUS_OK); + break; + case LTTNG_ACTION_TYPE_SNAPSHOT_SESSION: + status = lttng_action_snapshot_session_get_session_name( + action, &session_name); + assert(status == LTTNG_ACTION_STATUS_OK); + break; + case LTTNG_ACTION_TYPE_GROUP: + case LTTNG_ACTION_TYPE_UNKNOWN: + /* Fallthrough */ + default: + abort(); + break; + } + + /* + * Fetch the session execution context info as needed. + * Note that we could decide to not add an action for which we know the + * execution will not happen (i.e no session exists for that name). For + * now we leave the decision to skip to the action executor for sake of + * simplicity and consistency. + */ + if (session_name != NULL) { + struct ltt_session *session = NULL; + + session_lock_list(); + session = session_find_by_name(session_name); + if (session) { + LTTNG_OPTIONAL_SET(&subitem.context.session_id, + session->id); + session_put(session); + } + + session_unlock_list(); + } + + /* Get a reference to the action. */ + lttng_action_get(action); + subitem.action = action; + + ret = lttng_dynamic_array_add_element(subitems, &subitem); + if (ret) { + ERR("Failed to add work subitem to the subitem array"); + lttng_action_put(action); + ret = -1; + goto end; + } + +end: + return ret; +} + +static int populate_subitem_array_from_trigger(struct lttng_trigger *trigger, + struct lttng_dynamic_array *subitems) +{ + struct lttng_action *action; + + action = lttng_trigger_get_action(trigger); + assert(action); + + return add_action_to_subitem_array(action, subitems); +} diff --git a/src/bin/lttng-sessiond/action-executor.h b/src/bin/lttng-sessiond/action-executor.h index 945b9b325..85d5931fe 100644 --- a/src/bin/lttng-sessiond/action-executor.h +++ b/src/bin/lttng-sessiond/action-executor.h @@ -37,7 +37,7 @@ void action_executor_destroy(struct action_executor *executor); * This function assumes the ownership of the `evaluation` both on success and * failure: the caller should no longer access it once the function returns. */ -enum action_executor_status action_executor_enqueue( +enum action_executor_status action_executor_enqueue_trigger( struct action_executor *executor, struct lttng_trigger *trigger, struct lttng_evaluation *evaluation, diff --git a/src/bin/lttng-sessiond/notification-thread-events.c b/src/bin/lttng-sessiond/notification-thread-events.c index 90fdadd61..5cccc008e 100644 --- a/src/bin/lttng-sessiond/notification-thread-events.c +++ b/src/bin/lttng-sessiond/notification-thread-events.c @@ -1953,9 +1953,9 @@ int handle_notification_thread_command_session_rotation( * Ownership of `evaluation` transferred to the action executor * no matter the result. */ - executor_status = action_executor_enqueue(state->executor, - trigger, evaluation, &session_creds, - client_list); + executor_status = action_executor_enqueue_trigger( + state->executor, trigger, evaluation, + &session_creds, client_list); evaluation = NULL; switch (executor_status) { case ACTION_EXECUTOR_STATUS_OK: @@ -2917,8 +2917,8 @@ int handle_notification_thread_command_register_trigger( * Ownership of `evaluation` transferred to the action executor * no matter the result. */ - executor_status = action_executor_enqueue(state->executor, trigger, - evaluation, &object_creds, client_list); + executor_status = action_executor_enqueue_trigger(state->executor, + trigger, evaluation, &object_creds, client_list); evaluation = NULL; switch (executor_status) { case ACTION_EXECUTOR_STATUS_OK: @@ -4638,7 +4638,7 @@ int dispatch_one_event_notifier_notification(struct notification_thread_state *s } client_list = get_client_list_from_condition(state, lttng_trigger_get_const_condition(element->trigger)); - executor_status = action_executor_enqueue(state->executor, + executor_status = action_executor_enqueue_trigger(state->executor, element->trigger, evaluation, NULL, client_list); switch (executor_status) { case ACTION_EXECUTOR_STATUS_OK: @@ -4921,9 +4921,9 @@ int handle_notification_thread_channel_sample( * Ownership of `evaluation` transferred to the action executor * no matter the result. */ - executor_status = action_executor_enqueue(state->executor, - trigger, evaluation, &channel_creds, - client_list); + executor_status = action_executor_enqueue_trigger( + state->executor, trigger, evaluation, + &channel_creds, client_list); evaluation = NULL; switch (executor_status) { case ACTION_EXECUTOR_STATUS_OK: