mirror of
https://github.com/thegeeklab/ansible-later.git
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261 lines
13 KiB
Python
261 lines
13 KiB
Python
# (c) 2012-2014, Michael DeHaan <michael.dehaan@gmail.com>
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#
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# This file is part of Ansible
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#
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# Ansible is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# Ansible is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with Ansible. If not, see <http://www.gnu.org/licenses/>.
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# Make coding more python3-ish
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from __future__ import (absolute_import, division, print_function)
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__metaclass__ = type
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DOCUMENTATION = '''
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strategy: free
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short_description: Executes tasks on each host independently
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description:
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- Task execution is as fast as possible per host in batch as defined by C(serial) (default all).
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Ansible will not wait for other hosts to finish the current task before queuing the next task for a host that has finished.
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Once a host is done with the play, it opens it's slot to a new host that was waiting to start.
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version_added: "2.0"
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author: Ansible Core Team
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'''
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import time
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from ansible import constants as C
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from ansible.errors import AnsibleError
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from ansible.playbook.included_file import IncludedFile
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from ansible.plugins.loader import action_loader
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from ansible.plugins.strategy import StrategyBase
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from ansible.template import Templar
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from ansible.module_utils._text import to_text
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try:
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from __main__ import display
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except ImportError:
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from ansible.utils.display import Display
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display = Display()
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class StrategyModule(StrategyBase):
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def _filter_notified_hosts(self, notified_hosts):
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'''
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Filter notified hosts accordingly to strategy
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'''
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# We act only on hosts that are ready to flush handlers
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return [host for host in notified_hosts
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if host in self._flushed_hosts and self._flushed_hosts[host]]
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def __init__(self, tqm):
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super(StrategyModule, self).__init__(tqm)
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self._host_pinned = False
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def run(self, iterator, play_context):
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'''
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The "free" strategy is a bit more complex, in that it allows tasks to
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be sent to hosts as quickly as they can be processed. This means that
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some hosts may finish very quickly if run tasks result in little or no
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work being done versus other systems.
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The algorithm used here also tries to be more "fair" when iterating
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through hosts by remembering the last host in the list to be given a task
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and starting the search from there as opposed to the top of the hosts
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list again, which would end up favoring hosts near the beginning of the
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list.
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'''
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# the last host to be given a task
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last_host = 0
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result = self._tqm.RUN_OK
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# start with all workers being counted as being free
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workers_free = len(self._workers)
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work_to_do = True
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while work_to_do and not self._tqm._terminated:
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hosts_left = self.get_hosts_left(iterator)
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if len(hosts_left) == 0:
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self._tqm.send_callback('v2_playbook_on_no_hosts_remaining')
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result = False
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break
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work_to_do = False # assume we have no more work to do
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starting_host = last_host # save current position so we know when we've looped back around and need to break
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# try and find an unblocked host with a task to run
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host_results = []
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while True:
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host = hosts_left[last_host]
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display.debug("next free host: %s" % host)
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host_name = host.get_name()
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# peek at the next task for the host, to see if there's
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# anything to do do for this host
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(state, task) = iterator.get_next_task_for_host(host, peek=True)
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display.debug("free host state: %s" % state, host=host_name)
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display.debug("free host task: %s" % task, host=host_name)
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if host_name not in self._tqm._unreachable_hosts and task:
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# set the flag so the outer loop knows we've still found
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# some work which needs to be done
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work_to_do = True
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display.debug("this host has work to do", host=host_name)
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# check to see if this host is blocked (still executing a previous task)
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if host_name not in self._blocked_hosts or not self._blocked_hosts[host_name]:
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# pop the task, mark the host blocked, and queue it
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self._blocked_hosts[host_name] = True
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(state, task) = iterator.get_next_task_for_host(host)
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try:
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action = action_loader.get(task.action, class_only=True)
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except KeyError:
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# we don't care here, because the action may simply not have a
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# corresponding action plugin
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action = None
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display.debug("getting variables", host=host_name)
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task_vars = self._variable_manager.get_vars(play=iterator._play, host=host, task=task)
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self.add_tqm_variables(task_vars, play=iterator._play)
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templar = Templar(loader=self._loader, variables=task_vars)
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display.debug("done getting variables", host=host_name)
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try:
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task.name = to_text(templar.template(task.name, fail_on_undefined=False), nonstring='empty')
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display.debug("done templating", host=host_name)
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except:
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# just ignore any errors during task name templating,
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# we don't care if it just shows the raw name
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display.debug("templating failed for some reason", host=host_name)
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run_once = templar.template(task.run_once) or action and getattr(action, 'BYPASS_HOST_LOOP', False)
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if run_once:
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if action and getattr(action, 'BYPASS_HOST_LOOP', False):
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raise AnsibleError("The '%s' module bypasses the host loop, which is currently not supported in the free strategy "
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"and would instead execute for every host in the inventory list." % task.action, obj=task._ds)
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else:
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display.warning("Using run_once with the free strategy is not currently supported. This task will still be "
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"executed for every host in the inventory list.")
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# check to see if this task should be skipped, due to it being a member of a
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# role which has already run (and whether that role allows duplicate execution)
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if task._role and task._role.has_run(host):
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# If there is no metadata, the default behavior is to not allow duplicates,
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# if there is metadata, check to see if the allow_duplicates flag was set to true
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if task._role._metadata is None or task._role._metadata and not task._role._metadata.allow_duplicates:
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display.debug("'%s' skipped because role has already run" % task, host=host_name)
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del self._blocked_hosts[host_name]
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continue
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if task.action == 'meta':
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self._execute_meta(task, play_context, iterator, target_host=host)
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self._blocked_hosts[host_name] = False
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else:
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# handle step if needed, skip meta actions as they are used internally
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if not self._step or self._take_step(task, host_name):
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if task.any_errors_fatal:
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display.warning("Using any_errors_fatal with the free strategy is not supported, "
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"as tasks are executed independently on each host")
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self._tqm.send_callback('v2_playbook_on_task_start', task, is_conditional=False)
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self._queue_task(host, task, task_vars, play_context)
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# each task is counted as a worker being busy
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workers_free -= 1
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del task_vars
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else:
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display.debug("%s is blocked, skipping for now" % host_name)
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# all workers have tasks to do (and the current host isn't done with the play).
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# loop back to starting host and break out
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if self._host_pinned and workers_free == 0 and work_to_do:
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last_host = starting_host
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break
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# move on to the next host and make sure we
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# haven't gone past the end of our hosts list
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last_host += 1
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if last_host > len(hosts_left) - 1:
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last_host = 0
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# if we've looped around back to the start, break out
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if last_host == starting_host:
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break
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results = self._process_pending_results(iterator)
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host_results.extend(results)
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# each result is counted as a worker being free again
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workers_free += len(results)
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self.update_active_connections(results)
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try:
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included_files = IncludedFile.process_include_results(
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host_results,
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iterator=iterator,
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loader=self._loader,
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variable_manager=self._variable_manager
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)
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except AnsibleError as e:
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return self._tqm.RUN_ERROR
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if len(included_files) > 0:
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all_blocks = dict((host, []) for host in hosts_left)
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for included_file in included_files:
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display.debug("collecting new blocks for %s" % included_file)
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try:
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if included_file._is_role:
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new_ir = self._copy_included_file(included_file)
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new_blocks, handler_blocks = new_ir.get_block_list(
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play=iterator._play,
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variable_manager=self._variable_manager,
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loader=self._loader,
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)
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self._tqm.update_handler_list([handler for handler_block in handler_blocks for handler in handler_block.block])
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else:
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new_blocks = self._load_included_file(included_file, iterator=iterator)
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except AnsibleError as e:
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for host in included_file._hosts:
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iterator.mark_host_failed(host)
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display.warning(str(e))
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continue
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for new_block in new_blocks:
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task_vars = self._variable_manager.get_vars(play=iterator._play, task=new_block._parent)
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final_block = new_block.filter_tagged_tasks(play_context, task_vars)
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for host in hosts_left:
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if host in included_file._hosts:
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all_blocks[host].append(final_block)
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display.debug("done collecting new blocks for %s" % included_file)
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display.debug("adding all collected blocks from %d included file(s) to iterator" % len(included_files))
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for host in hosts_left:
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iterator.add_tasks(host, all_blocks[host])
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display.debug("done adding collected blocks to iterator")
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# pause briefly so we don't spin lock
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time.sleep(C.DEFAULT_INTERNAL_POLL_INTERVAL)
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# collect all the final results
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results = self._wait_on_pending_results(iterator)
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# run the base class run() method, which executes the cleanup function
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# and runs any outstanding handlers which have been triggered
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return super(StrategyModule, self).run(iterator, play_context, result)
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