# (c) 2012-2014, Michael DeHaan # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . # Make coding more python3-ish from __future__ import (absolute_import, division, print_function) __metaclass__ = type import json import time import zlib from collections import defaultdict from multiprocessing import Lock from jinja2.exceptions import UndefinedError from ansible.compat.six.moves import queue as Queue from ansible.compat.six import iteritems, text_type, string_types from ansible import constants as C from ansible.errors import AnsibleError, AnsibleParserError, AnsibleUndefinedVariable from ansible.executor.play_iterator import PlayIterator from ansible.executor.process.worker import WorkerProcess from ansible.executor.task_result import TaskResult from ansible.inventory.host import Host from ansible.inventory.group import Group from ansible.module_utils.facts import Facts from ansible.playbook.helpers import load_list_of_blocks from ansible.playbook.included_file import IncludedFile from ansible.plugins import action_loader, connection_loader, filter_loader, lookup_loader, module_loader, test_loader from ansible.template import Templar from ansible.utils.unicode import to_unicode from ansible.vars.unsafe_proxy import wrap_var from ansible.vars import combine_vars try: from __main__ import display except ImportError: from ansible.utils.display import Display display = Display() __all__ = ['StrategyBase'] if 'action_write_locks' not in globals(): # Do not initialize this more than once because it seems to bash # the existing one. multiprocessing must be reloading the module # when it forks? action_write_locks = dict() # Below is a Lock for use when we weren't expecting a named module. # It gets used when an action plugin directly invokes a module instead # of going through the strategies. Slightly less efficient as all # processes with unexpected module names will wait on this lock action_write_locks[None] = Lock() # These plugins are called directly by action plugins (not going through # a strategy). We precreate them here as an optimization mods = set(p['name'] for p in Facts.PKG_MGRS) mods.update(('copy', 'file', 'setup', 'slurp', 'stat')) for mod_name in mods: action_write_locks[mod_name] = Lock() # TODO: this should probably be in the plugins/__init__.py, with # a smarter mechanism to set all of the attributes based on # the loaders created there class SharedPluginLoaderObj: ''' A simple object to make pass the various plugin loaders to the forked processes over the queue easier ''' def __init__(self): self.action_loader = action_loader self.connection_loader = connection_loader self.filter_loader = filter_loader self.test_loader = test_loader self.lookup_loader = lookup_loader self.module_loader = module_loader class StrategyBase: ''' This is the base class for strategy plugins, which contains some common code useful to all strategies like running handlers, cleanup actions, etc. ''' def __init__(self, tqm): self._tqm = tqm self._inventory = tqm.get_inventory() self._workers = tqm.get_workers() self._notified_handlers = tqm._notified_handlers self._listening_handlers = tqm._listening_handlers self._variable_manager = tqm.get_variable_manager() self._loader = tqm.get_loader() self._final_q = tqm._final_q self._step = getattr(tqm._options, 'step', False) self._diff = getattr(tqm._options, 'diff', False) # Backwards compat: self._display isn't really needed, just import the global display and use that. self._display = display # internal counters self._pending_results = 0 self._cur_worker = 0 # this dictionary is used to keep track of hosts that have # outstanding tasks still in queue self._blocked_hosts = dict() def run(self, iterator, play_context, result=True): # save the failed/unreachable hosts, as the run_handlers() # method will clear that information during its execution failed_hosts = iterator.get_failed_hosts() unreachable_hosts = self._tqm._unreachable_hosts.keys() display.debug("running handlers") result &= self.run_handlers(iterator, play_context) # now update with the hosts (if any) that failed or were # unreachable during the handler execution phase failed_hosts = set(failed_hosts).union(iterator.get_failed_hosts()) unreachable_hosts = set(unreachable_hosts).union(self._tqm._unreachable_hosts.keys()) # return the appropriate code, depending on the status hosts after the run if not isinstance(result, bool) and result != self._tqm.RUN_OK: return result elif len(unreachable_hosts) > 0: return self._tqm.RUN_UNREACHABLE_HOSTS elif len(failed_hosts) > 0: return self._tqm.RUN_FAILED_HOSTS elif isinstance(result, bool) and not result: return self._tqm.RUN_ERROR else: return self._tqm.RUN_OK def get_hosts_remaining(self, play): return [host for host in self._inventory.get_hosts(play.hosts) if host.name not in self._tqm._failed_hosts and host.name not in self._tqm._unreachable_hosts] def get_failed_hosts(self, play): return [host for host in self._inventory.get_hosts(play.hosts) if host.name in self._tqm._failed_hosts] def add_tqm_variables(self, vars, play): ''' Base class method to add extra variables/information to the list of task vars sent through the executor engine regarding the task queue manager state. ''' vars['ansible_current_hosts'] = [h.name for h in self.get_hosts_remaining(play)] vars['ansible_failed_hosts'] = [h.name for h in self.get_failed_hosts(play)] def _queue_task(self, host, task, task_vars, play_context): ''' handles queueing the task up to be sent to a worker ''' display.debug("entering _queue_task() for %s/%s" % (host, task)) # Add a write lock for tasks. # Maybe this should be added somewhere further up the call stack but # this is the earliest in the code where we have task (1) extracted # into its own variable and (2) there's only a single code path # leading to the module being run. This is called by three # functions: __init__.py::_do_handler_run(), linear.py::run(), and # free.py::run() so we'd have to add to all three to do it there. # The next common higher level is __init__.py::run() and that has # tasks inside of play_iterator so we'd have to extract them to do it # there. global action_write_locks if task.action not in action_write_locks: display.debug('Creating lock for %s' % task.action) action_write_locks[task.action] = Lock() # and then queue the new task display.debug("%s - putting task (%s) in queue" % (host, task)) try: display.debug("worker is %d (out of %d available)" % (self._cur_worker+1, len(self._workers))) # create a dummy object with plugin loaders set as an easier # way to share them with the forked processes shared_loader_obj = SharedPluginLoaderObj() queued = False while True: (worker_prc, rslt_q) = self._workers[self._cur_worker] if worker_prc is None or not worker_prc.is_alive(): worker_prc = WorkerProcess(rslt_q, task_vars, host, task, play_context, self._loader, self._variable_manager, shared_loader_obj) self._workers[self._cur_worker][0] = worker_prc worker_prc.start() queued = True self._cur_worker += 1 if self._cur_worker >= len(self._workers): self._cur_worker = 0 time.sleep(0.005) if queued: break del task_vars self._pending_results += 1 except (EOFError, IOError, AssertionError) as e: # most likely an abort display.debug("got an error while queuing: %s" % e) return display.debug("exiting _queue_task() for %s/%s" % (host, task)) def _process_pending_results(self, iterator, one_pass=False): ''' Reads results off the final queue and takes appropriate action based on the result (executing callbacks, updating state, etc.). ''' ret_results = [] while not self._final_q.empty() and not self._tqm._terminated: try: result = self._final_q.get() display.debug("got result from result worker: %s" % ([text_type(x) for x in result],)) # helper method, used to find the original host from the one # returned in the result/message, which has been serialized and # thus had some information stripped from it to speed up the # serialization process def get_original_host(host): if host.name in self._inventory._hosts_cache: return self._inventory._hosts_cache[host.name] else: return self._inventory.get_host(host.name) # all host status messages contain 2 entries: (msg, task_result) if result[0] in ('host_task_ok', 'host_task_failed', 'host_task_skipped', 'host_unreachable'): task_result = result[1] host = get_original_host(task_result._host) task = task_result._task if result[0] == 'host_task_failed' or task_result.is_failed(): if not task.ignore_errors: display.debug("marking %s as failed" % host.name) if task.run_once: # if we're using run_once, we have to fail every host here [iterator.mark_host_failed(h) for h in self._inventory.get_hosts(iterator._play.hosts) if h.name not in self._tqm._unreachable_hosts] else: iterator.mark_host_failed(host) # only add the host to the failed list officially if it has # been failed by the iterator if iterator.is_failed(host): self._tqm._failed_hosts[host.name] = True self._tqm._stats.increment('failures', host.name) else: # otherwise, we grab the current state and if we're iterating on # the rescue portion of a block then we save the failed task in a # special var for use within the rescue/always state, _ = iterator.get_next_task_for_host(host, peek=True) if state.run_state == iterator.ITERATING_RESCUE: original_task = iterator.get_original_task(host, task) self._variable_manager.set_nonpersistent_facts( host, dict( ansible_failed_task=original_task.serialize(), ansible_failed_result=task_result._result, ), ) else: self._tqm._stats.increment('ok', host.name) self._tqm.send_callback('v2_runner_on_failed', task_result, ignore_errors=task.ignore_errors) elif result[0] == 'host_unreachable': self._tqm._unreachable_hosts[host.name] = True self._tqm._stats.increment('dark', host.name) self._tqm.send_callback('v2_runner_on_unreachable', task_result) elif result[0] == 'host_task_skipped': self._tqm._stats.increment('skipped', host.name) self._tqm.send_callback('v2_runner_on_skipped', task_result) elif result[0] == 'host_task_ok': if task.action != 'include': self._tqm._stats.increment('ok', host.name) if 'changed' in task_result._result and task_result._result['changed']: self._tqm._stats.increment('changed', host.name) self._tqm.send_callback('v2_runner_on_ok', task_result) if self._diff: self._tqm.send_callback('v2_on_file_diff', task_result) self._pending_results -= 1 if host.name in self._blocked_hosts: del self._blocked_hosts[host.name] # If this is a role task, mark the parent role as being run (if # the task was ok or failed, but not skipped or unreachable) if task_result._task._role is not None and result[0] in ('host_task_ok', 'host_task_failed'): # lookup the role in the ROLE_CACHE to make sure we're dealing # with the correct object and mark it as executed for (entry, role_obj) in iteritems(iterator._play.ROLE_CACHE[task_result._task._role._role_name]): if role_obj._uuid == task_result._task._role._uuid: role_obj._had_task_run[host.name] = True ret_results.append(task_result) elif result[0] == 'add_host': result_item = result[1] new_host_info = result_item.get('add_host', dict()) self._add_host(new_host_info, iterator) elif result[0] == 'add_group': host = get_original_host(result[1]) result_item = result[2] self._add_group(host, result_item) elif result[0] == 'notify_handler': task_result = result[1] handler_name = result[2] original_host = get_original_host(task_result._host) original_task = iterator.get_original_task(original_host, task_result._task) def search_handler_blocks(handler_name, handler_blocks): for handler_block in handler_blocks: for handler_task in handler_block.block: handler_vars = self._variable_manager.get_vars(loader=self._loader, play=iterator._play, task=handler_task) templar = Templar(loader=self._loader, variables=handler_vars) try: # first we check with the full result of get_name(), which may # include the role name (if the handler is from a role). If that # is not found, we resort to the simple name field, which doesn't # have anything extra added to it. target_handler_name = templar.template(handler_task.name) if target_handler_name == handler_name: return handler_task else: target_handler_name = templar.template(handler_task.get_name()) if target_handler_name == handler_name: return handler_task except (UndefinedError, AnsibleUndefinedVariable): # We skip this handler due to the fact that it may be using # a variable in the name that was conditionally included via # set_fact or some other method, and we don't want to error # out unnecessarily continue return None # Find the handler using the above helper. First we look up the # dependency chain of the current task (if it's from a role), otherwise # we just look through the list of handlers in the current play/all # roles and use the first one that matches the notify name if handler_name in self._listening_handlers: for listening_handler_name in self._listening_handlers[handler_name]: listening_handler = search_handler_blocks(listening_handler_name, iterator._play.handlers) if listening_handler is None: raise AnsibleError("The requested handler listener '%s' was not found in any of the known handlers" % listening_handler_name) if original_host not in self._notified_handlers[listening_handler]: self._notified_handlers[listening_handler].append(original_host) display.vv("NOTIFIED HANDLER %s" % (listening_handler_name,)) else: target_handler = search_handler_blocks(handler_name, iterator._play.handlers) if target_handler is None: raise AnsibleError("The requested handler '%s' was not found in any of the known handlers" % handler_name) if target_handler in self._notified_handlers: if original_host not in self._notified_handlers[target_handler]: self._notified_handlers[target_handler].append(original_host) # FIXME: should this be a callback? display.vv("NOTIFIED HANDLER %s" % (handler_name,)) else: raise AnsibleError("The requested handler '%s' was found in neither the main handlers list nor the listening handlers list" % handler_name) elif result[0] == 'register_host_var': # essentially the same as 'set_host_var' below, however we # never follow the delegate_to value for registered vars and # the variable goes in the fact_cache host = get_original_host(result[1]) task = result[2] var_value = wrap_var(result[3]) var_name = task.register if task.run_once: host_list = [host for host in self._inventory.get_hosts(iterator._play.hosts) if host.name not in self._tqm._unreachable_hosts] else: host_list = [host] for target_host in host_list: self._variable_manager.set_nonpersistent_facts(target_host, {var_name: var_value}) elif result[0] in ('set_host_var', 'set_host_facts'): host = get_original_host(result[1]) task = result[2] item = result[3] # find the host we're actually refering too here, which may # be a host that is not really in inventory at all if task.delegate_to is not None and task.delegate_facts: task_vars = self._variable_manager.get_vars(loader=self._loader, play=iterator._play, host=host, task=task) self.add_tqm_variables(task_vars, play=iterator._play) loop_var = 'item' if task.loop_control: loop_var = task.loop_control.loop_var or 'item' if item is not None: task_vars[loop_var] = item templar = Templar(loader=self._loader, variables=task_vars) host_name = templar.template(task.delegate_to) actual_host = self._inventory.get_host(host_name) if actual_host is None: actual_host = Host(name=host_name) else: actual_host = host if task.run_once: host_list = [host for host in self._inventory.get_hosts(iterator._play.hosts) if host.name not in self._tqm._unreachable_hosts] else: host_list = [actual_host] if result[0] == 'set_host_var': var_name = result[4] var_value = result[5] for target_host in host_list: self._variable_manager.set_host_variable(target_host, var_name, var_value) elif result[0] == 'set_host_facts': facts = result[4] for target_host in host_list: if task.action == 'set_fact': self._variable_manager.set_nonpersistent_facts(target_host, facts.copy()) else: self._variable_manager.set_host_facts(target_host, facts.copy()) elif result[0].startswith('v2_runner_item') or result[0] == 'v2_runner_retry': self._tqm.send_callback(result[0], result[1]) elif result[0] == 'v2_on_file_diff': if self._diff: self._tqm.send_callback('v2_on_file_diff', result[1]) else: raise AnsibleError("unknown result message received: %s" % result[0]) except Queue.Empty: time.sleep(0.005) if one_pass: break return ret_results def _wait_on_pending_results(self, iterator): ''' Wait for the shared counter to drop to zero, using a short sleep between checks to ensure we don't spin lock ''' ret_results = [] display.debug("waiting for pending results...") while self._pending_results > 0 and not self._tqm._terminated: results = self._process_pending_results(iterator) ret_results.extend(results) time.sleep(0.005) display.debug("no more pending results, returning what we have") return ret_results def _add_host(self, host_info, iterator): ''' Helper function to add a new host to inventory based on a task result. ''' host_name = host_info.get('host_name') # Check if host in inventory, add if not new_host = self._inventory.get_host(host_name) if not new_host: new_host = Host(name=host_name) self._inventory._hosts_cache[host_name] = new_host self._inventory.get_host_vars(new_host) allgroup = self._inventory.get_group('all') allgroup.add_host(new_host) # Set/update the vars for this host new_host.vars = combine_vars(new_host.vars, self._inventory.get_host_vars(new_host)) new_host.vars = combine_vars(new_host.vars, host_info.get('host_vars', dict())) new_groups = host_info.get('groups', []) for group_name in new_groups: if not self._inventory.get_group(group_name): new_group = Group(group_name) self._inventory.add_group(new_group) self._inventory.get_group_vars(new_group) new_group.vars = self._inventory.get_group_variables(group_name) else: new_group = self._inventory.get_group(group_name) new_group.add_host(new_host) # add this host to the group cache if self._inventory.groups is not None: if group_name in self._inventory.groups: if new_host not in self._inventory.get_group(group_name).hosts: self._inventory.get_group(group_name).hosts.append(new_host.name) # clear pattern caching completely since it's unpredictable what # patterns may have referenced the group self._inventory.clear_pattern_cache() # also clear the hostvar cache entry for the given play, so that # the new hosts are available if hostvars are referenced self._variable_manager.invalidate_hostvars_cache(play=iterator._play) def _add_group(self, host, result_item): ''' Helper function to add a group (if it does not exist), and to assign the specified host to that group. ''' changed = False # the host here is from the executor side, which means it was a # serialized/cloned copy and we'll need to look up the proper # host object from the master inventory real_host = self._inventory.get_host(host.name) group_name = result_item.get('add_group') new_group = self._inventory.get_group(group_name) if not new_group: # create the new group and add it to inventory new_group = Group(name=group_name) self._inventory.add_group(new_group) new_group.vars = self._inventory.get_group_vars(new_group) # and add the group to the proper hierarchy allgroup = self._inventory.get_group('all') allgroup.add_child_group(new_group) changed = True if group_name not in host.get_groups(): new_group.add_host(real_host) changed = True return changed def _load_included_file(self, included_file, iterator, is_handler=False): ''' Loads an included YAML file of tasks, applying the optional set of variables. ''' display.debug("loading included file: %s" % included_file._filename) try: data = self._loader.load_from_file(included_file._filename) if data is None: return [] elif not isinstance(data, list): raise AnsibleError("included task files must contain a list of tasks") block_list = load_list_of_blocks( data, play=included_file._task._block._play, parent_block=None, task_include=included_file._task, role=included_file._task._role, use_handlers=is_handler, loader=self._loader, variable_manager=self._variable_manager, ) # since we skip incrementing the stats when the task result is # first processed, we do so now for each host in the list for host in included_file._hosts: self._tqm._stats.increment('ok', host.name) except AnsibleError as e: # mark all of the hosts including this file as failed, send callbacks, # and increment the stats for this host for host in included_file._hosts: tr = TaskResult(host=host, task=included_file._task, return_data=dict(failed=True, reason=to_unicode(e))) iterator.mark_host_failed(host) self._tqm._failed_hosts[host.name] = True self._tqm._stats.increment('failures', host.name) self._tqm.send_callback('v2_runner_on_failed', tr) return [] # set the vars for this task from those specified as params to the include for b in block_list: # first make a copy of the including task, so that each has a unique copy to modify b._task_include = b._task_include.copy() # then we create a temporary set of vars to ensure the variable reference is unique temp_vars = b._task_include.vars.copy() temp_vars.update(included_file._args.copy()) # pop tags out of the include args, if they were specified there, and assign # them to the include. If the include already had tags specified, we raise an # error so that users know not to specify them both ways tags = temp_vars.pop('tags', []) if isinstance(tags, string_types): tags = tags.split(',') if len(tags) > 0: if len(b._task_include.tags) > 0: raise AnsibleParserError("Include tasks should not specify tags in more than one way (both via args and directly on the task). Mixing tag specify styles is prohibited for whole import hierarchy, not only for single import statement", obj=included_file._task._ds) display.deprecated("You should not specify tags in the include parameters. All tags should be specified using the task-level option") b._task_include.tags = tags b._task_include.vars = temp_vars # finally, send the callback and return the list of blocks loaded self._tqm.send_callback('v2_playbook_on_include', included_file) display.debug("done processing included file") return block_list def run_handlers(self, iterator, play_context): ''' Runs handlers on those hosts which have been notified. ''' result = True for handler_block in iterator._play.handlers: # FIXME: handlers need to support the rescue/always portions of blocks too, # but this may take some work in the iterator and gets tricky when # we consider the ability of meta tasks to flush handlers for handler in handler_block.block: if handler in self._notified_handlers and len(self._notified_handlers[handler]): result = self._do_handler_run(handler, handler.get_name(), iterator=iterator, play_context=play_context) if not result: break return result def _do_handler_run(self, handler, handler_name, iterator, play_context, notified_hosts=None): # FIXME: need to use iterator.get_failed_hosts() instead? #if not len(self.get_hosts_remaining(iterator._play)): # self._tqm.send_callback('v2_playbook_on_no_hosts_remaining') # result = False # break saved_name = handler.name handler.name = handler_name self._tqm.send_callback('v2_playbook_on_handler_task_start', handler) handler.name = saved_name if notified_hosts is None: notified_hosts = self._notified_handlers[handler] run_once = False try: action = action_loader.get(handler.action, class_only=True) if handler.run_once or getattr(action, 'BYPASS_HOST_LOOP', False): run_once = True except KeyError: # we don't care here, because the action may simply not have a # corresponding action plugin pass host_results = [] for host in notified_hosts: if not handler.has_triggered(host) and (host.name not in self._tqm._failed_hosts or play_context.force_handlers): task_vars = self._variable_manager.get_vars(loader=self._loader, play=iterator._play, host=host, task=handler) self.add_tqm_variables(task_vars, play=iterator._play) self._queue_task(host, handler, task_vars, play_context) if run_once: break # collect the results from the handler run host_results = self._wait_on_pending_results(iterator) try: included_files = IncludedFile.process_include_results( host_results, self._tqm, iterator=iterator, inventory=self._inventory, loader=self._loader, variable_manager=self._variable_manager ) except AnsibleError as e: return False result = True if len(included_files) > 0: for included_file in included_files: try: new_blocks = self._load_included_file(included_file, iterator=iterator, is_handler=True) # for every task in each block brought in by the include, add the list # of hosts which included the file to the notified_handlers dict for block in new_blocks: iterator._play.handlers.append(block) for task in block.block: result = self._do_handler_run( handler=task, handler_name=None, iterator=iterator, play_context=play_context, notified_hosts=included_file._hosts[:], ) if not result: break except AnsibleError as e: for host in included_file._hosts: iterator.mark_host_failed(host) self._tqm._failed_hosts[host.name] = True display.warning(str(e)) continue # wipe the notification list self._notified_handlers[handler] = [] display.debug("done running handlers, result is: %s" % result) return result def _take_step(self, task, host=None): ret=False msg=u'Perform task: %s ' % task if host: msg += u'on %s ' % host msg += u'(N)o/(y)es/(c)ontinue: ' resp = display.prompt(msg) if resp.lower() in ['y','yes']: display.debug("User ran task") ret = True elif resp.lower() in ['c', 'continue']: display.debug("User ran task and cancled step mode") self._step = False ret = True else: display.debug("User skipped task") display.banner(msg) return ret def _execute_meta(self, task, play_context, iterator, target_host=None): # meta tasks store their args in the _raw_params field of args, # since they do not use k=v pairs, so get that meta_action = task.args.get('_raw_params') # FIXME(s): # * raise an error or show a warning when a conditional is used # on a meta task that doesn't support them def _evaluate_conditional(h): all_vars = self._variable_manager.get_vars(loader=self._loader, play=iterator._play, host=host, task=task) templar = Templar(loader=self._loader, variables=all_vars) return task.evaluate_conditional(templar, all_vars) if target_host: host_list = [target_host] else: host_list = [host for host in self._inventory.get_hosts(iterator._play.hosts) if host.name not in self._tqm._unreachable_hosts] results = [] for host in host_list: result = None if meta_action == 'noop': # FIXME: issue a callback for the noop here? result = TaskResult(host, task, dict(changed=False, msg="noop")) elif meta_action == 'flush_handlers': self.run_handlers(iterator, play_context) elif meta_action == 'refresh_inventory': self._inventory.refresh_inventory() result = TaskResult(host, task, dict(changed=False, msg="inventory successfully refreshed")) elif meta_action == 'clear_facts': if _evaluate_conditional(host): self._variable_manager.clear_facts(target_host) result = TaskResult(host, task, dict(changed=True, msg="inventory successfully refreshed")) else: result = TaskResult(host, task, dict(changed=False, skipped=True)) elif meta_action == 'clear_host_errors': if _evaluate_conditional(host): self._tqm._failed_hosts.pop(host.name, False) self._tqm._unreachable_hosts.pop(host.name, False) iterator._host_states[host.name].fail_state = iterator.FAILED_NONE result = TaskResult(host, task, dict(changed=True, msg="successfully cleared host errors")) else: result = TaskResult(host, task, dict(changed=False, skipped=True)) elif meta_action == 'end_play': if _evaluate_conditional(host): iterator._host_states[host.name].run_state = iterator.ITERATING_COMPLETE result = TaskResult(host, task, dict(changed=True, msg="ending play")) else: result = TaskResult(host, task, dict(changed=False, skipped=True)) #elif meta_action == 'reset_connection': # connection_info.connection.close() else: raise AnsibleError("invalid meta action requested: %s" % meta_action, obj=task._ds) if result is not None: results.append(result) return results