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# (c) 2012-2014, Michael DeHaan <michael.dehaan@gmail.com> # # 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 <http://www.gnu.org/licenses/>. # Make coding more python3-ish from __future__ import (absolute_import, division, print_function) __metaclass__ = type DOCUMENTATION = ''' name: linear short_description: Executes tasks in a linear fashion description: - Task execution is in lockstep per host batch as defined by C(serial) (default all). Up to the fork limit of hosts will execute each task at the same time and then the next series of hosts until the batch is done, before going on to the next task. version_added: "2.0" notes: - This was the default Ansible behaviour before 'strategy plugins' were introduced in 2.0. author: Ansible Core Team ''' from ansible import constants as C from ansible.errors import AnsibleError, AnsibleAssertionError, AnsibleParserError from ansible.executor.play_iterator import IteratingStates, FailedStates from ansible.module_utils._text import to_text from ansible.playbook.handler import Handler from ansible.playbook.included_file import IncludedFile from ansible.playbook.task import Task from ansible.plugins.loader import action_loader from ansible.plugins.strategy import StrategyBase from ansible.template import Templar from ansible.utils.display import Display display = Display() class StrategyModule(StrategyBase): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) # used for the lockstep to indicate to run handlers self._in_handlers = False def _get_next_task_lockstep(self, hosts, iterator): ''' Returns a list of (host, task) tuples, where the task may be a noop task to keep the iterator in lock step across all hosts. ''' noop_task = Task() noop_task.action = 'meta' noop_task.args['_raw_params'] = 'noop' noop_task.implicit = True noop_task.set_loader(iterator._play._loader) state_task_per_host = {} for host in hosts: state, task = iterator.get_next_task_for_host(host, peek=True) if task is not None: state_task_per_host[host] = state, task if not state_task_per_host: return [(h, None) for h in hosts] if self._in_handlers and not any(filter( lambda rs: rs == IteratingStates.HANDLERS, (s.run_state for s, _ in state_task_per_host.values())) ): self._in_handlers = False if self._in_handlers: lowest_cur_handler = min( s.cur_handlers_task for s, t in state_task_per_host.values() if s.run_state == IteratingStates.HANDLERS ) else: task_uuids = [t._uuid for s, t in state_task_per_host.values()] _loop_cnt = 0 while _loop_cnt <= 1: try: cur_task = iterator.all_tasks[iterator.cur_task] except IndexError: # pick up any tasks left after clear_host_errors iterator.cur_task = 0 _loop_cnt += 1 else: iterator.cur_task += 1 if cur_task._uuid in task_uuids: break else: # prevent infinite loop raise AnsibleAssertionError( 'BUG: There seems to be a mismatch between tasks in PlayIterator and HostStates.' ) host_tasks = [] for host, (state, task) in state_task_per_host.items(): if ((self._in_handlers and lowest_cur_handler == state.cur_handlers_task) or (not self._in_handlers and cur_task._uuid == task._uuid)): iterator.set_state_for_host(host.name, state) host_tasks.append((host, task)) else: host_tasks.append((host, noop_task)) # once hosts synchronize on 'flush_handlers' lockstep enters # '_in_handlers' phase where handlers are run instead of tasks # until at least one host is in IteratingStates.HANDLERS if (not self._in_handlers and cur_task.action in C._ACTION_META and cur_task.args.get('_raw_params') == 'flush_handlers'): self._in_handlers = True return host_tasks def run(self, iterator, play_context): ''' The linear strategy is simple - get the next task and queue it for all hosts, then wait for the queue to drain before moving on to the next task ''' # iterate over each task, while there is one left to run result = self._tqm.RUN_OK work_to_do = True self._set_hosts_cache(iterator._play) while work_to_do and not self._tqm._terminated: try: display.debug("getting the remaining hosts for this loop") hosts_left = self.get_hosts_left(iterator) display.debug("done getting the remaining hosts for this loop") # queue up this task for each host in the inventory callback_sent = False work_to_do = False host_tasks = self._get_next_task_lockstep(hosts_left, iterator) # skip control skip_rest = False choose_step = True # flag set if task is set to any_errors_fatal any_errors_fatal = False results = [] for (host, task) in host_tasks: if not task: continue if self._tqm._terminated: break run_once = False work_to_do = True # check to see if this task should be skipped, due to it being a member of a # role which has already run (and whether that role allows duplicate execution) if not isinstance(task, Handler) and task._role and task._role.has_run(host): # If there is no metadata, the default behavior is to not allow duplicates, # if there is metadata, check to see if the allow_duplicates flag was set to true if task._role._metadata is None or task._role._metadata and not task._role._metadata.allow_duplicates: display.debug("'%s' skipped because role has already run" % task) continue display.debug("getting variables") task_vars = self._variable_manager.get_vars(play=iterator._play, host=host, task=task, _hosts=self._hosts_cache, _hosts_all=self._hosts_cache_all) self.add_tqm_variables(task_vars, play=iterator._play) templar = Templar(loader=self._loader, variables=task_vars) display.debug("done getting variables") # test to see if the task across all hosts points to an action plugin which # sets BYPASS_HOST_LOOP to true, or if it has run_once enabled. If so, we # will only send this task to the first host in the list. task_action = templar.template(task.action) try: action = action_loader.get(task_action, class_only=True, collection_list=task.collections) except KeyError: # we don't care here, because the action may simply not have a # corresponding action plugin action = None if task_action in C._ACTION_META: # for the linear strategy, we run meta tasks just once and for # all hosts currently being iterated over rather than one host results.extend(self._execute_meta(task, play_context, iterator, host)) if task.args.get('_raw_params', None) not in ('noop', 'reset_connection', 'end_host', 'role_complete', 'flush_handlers'): run_once = True if (task.any_errors_fatal or run_once) and not task.ignore_errors: any_errors_fatal = True else: # handle step if needed, skip meta actions as they are used internally if self._step and choose_step: if self._take_step(task): choose_step = False else: skip_rest = True break run_once = templar.template(task.run_once) or action and getattr(action, 'BYPASS_HOST_LOOP', False) if (task.any_errors_fatal or run_once) and not task.ignore_errors: any_errors_fatal = True if not callback_sent: display.debug("sending task start callback, copying the task so we can template it temporarily") saved_name = task.name display.debug("done copying, going to template now") try: task.name = to_text(templar.template(task.name, fail_on_undefined=False), nonstring='empty') display.debug("done templating") except Exception: # just ignore any errors during task name templating, # we don't care if it just shows the raw name display.debug("templating failed for some reason") display.debug("here goes the callback...") if isinstance(task, Handler): self._tqm.send_callback('v2_playbook_on_handler_task_start', task) else: self._tqm.send_callback('v2_playbook_on_task_start', task, is_conditional=False) task.name = saved_name callback_sent = True display.debug("sending task start callback") self._blocked_hosts[host.get_name()] = True self._queue_task(host, task, task_vars, play_context) del task_vars # if we're bypassing the host loop, break out now if run_once: break results.extend(self._process_pending_results(iterator, max_passes=max(1, int(len(self._tqm._workers) * 0.1)))) # go to next host/task group if skip_rest: continue display.debug("done queuing things up, now waiting for results queue to drain") if self._pending_results > 0: results.extend(self._wait_on_pending_results(iterator)) self.update_active_connections(results) included_files = IncludedFile.process_include_results( results, iterator=iterator, loader=self._loader, variable_manager=self._variable_manager ) if len(included_files) > 0: display.debug("we have included files to process") display.debug("generating all_blocks data") all_blocks = dict((host, []) for host in hosts_left) display.debug("done generating all_blocks data") included_tasks = [] failed_includes_hosts = set() for included_file in included_files: display.debug("processing included file: %s" % included_file._filename) is_handler = False try: if included_file._is_role: new_ir = self._copy_included_file(included_file) new_blocks, handler_blocks = new_ir.get_block_list( play=iterator._play, variable_manager=self._variable_manager, loader=self._loader, ) else: is_handler = isinstance(included_file._task, Handler) new_blocks = self._load_included_file(included_file, iterator=iterator, is_handler=is_handler) # let PlayIterator know about any new handlers included via include_role or # import_role within include_role/include_taks iterator.handlers = [h for b in iterator._play.handlers for h in b.block] display.debug("iterating over new_blocks loaded from include file") for new_block in new_blocks: if is_handler: for task in new_block.block: task.notified_hosts = included_file._hosts[:] final_block = new_block else: task_vars = self._variable_manager.get_vars( play=iterator._play, task=new_block.get_first_parent_include(), _hosts=self._hosts_cache, _hosts_all=self._hosts_cache_all, ) display.debug("filtering new block on tags") final_block = new_block.filter_tagged_tasks(task_vars) display.debug("done filtering new block on tags") included_tasks.extend(final_block.get_tasks()) for host in hosts_left: if host in included_file._hosts: all_blocks[host].append(final_block) display.debug("done iterating over new_blocks loaded from include file") except AnsibleParserError: raise except AnsibleError as e: if included_file._is_role: # include_role does not have on_include callback so display the error display.error(to_text(e), wrap_text=False) for r in included_file._results: r._result['failed'] = True failed_includes_hosts.add(r._host) continue for host in failed_includes_hosts: self._tqm._failed_hosts[host.name] = True iterator.mark_host_failed(host) # finally go through all of the hosts and append the # accumulated blocks to their list of tasks display.debug("extending task lists for all hosts with included blocks") for host in hosts_left: iterator.add_tasks(host, all_blocks[host]) iterator.all_tasks[iterator.cur_task:iterator.cur_task] = included_tasks display.debug("done extending task lists") display.debug("done processing included files") display.debug("results queue empty") display.debug("checking for any_errors_fatal") failed_hosts = [] unreachable_hosts = [] for res in results: # execute_meta() does not set 'failed' in the TaskResult # so we skip checking it with the meta tasks and look just at the iterator if (res.is_failed() or res._task.action in C._ACTION_META) and iterator.is_failed(res._host): failed_hosts.append(res._host.name) elif res.is_unreachable(): unreachable_hosts.append(res._host.name) # if any_errors_fatal and we had an error, mark all hosts as failed if any_errors_fatal and (len(failed_hosts) > 0 or len(unreachable_hosts) > 0): dont_fail_states = frozenset([IteratingStates.RESCUE, IteratingStates.ALWAYS]) for host in hosts_left: (s, _) = iterator.get_next_task_for_host(host, peek=True) # the state may actually be in a child state, use the get_active_state() # method in the iterator to figure out the true active state s = iterator.get_active_state(s) if s.run_state not in dont_fail_states or \ s.run_state == IteratingStates.RESCUE and s.fail_state & FailedStates.RESCUE != 0: self._tqm._failed_hosts[host.name] = True result |= self._tqm.RUN_FAILED_BREAK_PLAY display.debug("done checking for any_errors_fatal") display.debug("checking for max_fail_percentage") if iterator._play.max_fail_percentage is not None and len(results) > 0: percentage = iterator._play.max_fail_percentage / 100.0 if (len(self._tqm._failed_hosts) / iterator.batch_size) > percentage: for host in hosts_left: # don't double-mark hosts, or the iterator will potentially # fail them out of the rescue/always states if host.name not in failed_hosts: self._tqm._failed_hosts[host.name] = True iterator.mark_host_failed(host) self._tqm.send_callback('v2_playbook_on_no_hosts_remaining') result |= self._tqm.RUN_FAILED_BREAK_PLAY display.debug('(%s failed / %s total )> %s max fail' % (len(self._tqm._failed_hosts), iterator.batch_size, percentage)) display.debug("done checking for max_fail_percentage") display.debug("checking to see if all hosts have failed and the running result is not ok") if result != self._tqm.RUN_OK and len(self._tqm._failed_hosts) >= len(hosts_left): display.debug("^ not ok, so returning result now") self._tqm.send_callback('v2_playbook_on_no_hosts_remaining') return result display.debug("done checking to see if all hosts have failed") except (IOError, EOFError) as e: display.debug("got IOError/EOFError in task loop: %s" % e) # most likely an abort, return failed return self._tqm.RUN_UNKNOWN_ERROR # run the base class run() method, which executes the cleanup function # and runs any outstanding handlers which have been triggered return super(StrategyModule, self).run(iterator, play_context, result)