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# (c) 2012-2014, Michael DeHaan <michael.dehaan@gmail.com> # (c) 2017 Ansible Project # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) from __future__ import (absolute_import, division, print_function) __metaclass__ = type import os import pty import time import json import signal import subprocess import sys import termios import traceback from ansible import constants as C from ansible.errors import AnsibleError, AnsibleParserError, AnsibleUndefinedVariable, AnsibleConnectionFailure, AnsibleActionFail, AnsibleActionSkip from ansible.executor.task_result import TaskResult from ansible.executor.module_common import get_action_args_with_defaults from ansible.module_utils.parsing.convert_bool import boolean from ansible.module_utils.six import binary_type from ansible.module_utils._text import to_text, to_native from ansible.module_utils.connection import write_to_file_descriptor from ansible.playbook.conditional import Conditional from ansible.playbook.task import Task from ansible.plugins import get_plugin_class from ansible.plugins.loader import become_loader, cliconf_loader, connection_loader, httpapi_loader, netconf_loader, terminal_loader from ansible.template import Templar from ansible.utils.collection_loader import AnsibleCollectionConfig, AnsibleCollectionRef from ansible.utils.listify import listify_lookup_plugin_terms from ansible.utils.unsafe_proxy import to_unsafe_text, wrap_var from ansible.vars.clean import namespace_facts, clean_facts from ansible.utils.display import Display from ansible.utils.vars import combine_vars, isidentifier display = Display() RETURN_VARS = [x for x in C.MAGIC_VARIABLE_MAPPING.items() if 'become' not in x and '_pass' not in x] __all__ = ['TaskExecutor'] class TaskTimeoutError(BaseException): pass def task_timeout(signum, frame): raise TaskTimeoutError def remove_omit(task_args, omit_token): ''' Remove args with a value equal to the ``omit_token`` recursively to align with now having suboptions in the argument_spec ''' if not isinstance(task_args, dict): return task_args new_args = {} for i in task_args.items(): if i[1] == omit_token: continue elif isinstance(i[1], dict): new_args[i[0]] = remove_omit(i[1], omit_token) elif isinstance(i[1], list): new_args[i[0]] = [remove_omit(v, omit_token) for v in i[1]] else: new_args[i[0]] = i[1] return new_args class TaskExecutor: ''' This is the main worker class for the executor pipeline, which handles loading an action plugin to actually dispatch the task to a given host. This class roughly corresponds to the old Runner() class. ''' def __init__(self, host, task, job_vars, play_context, new_stdin, loader, shared_loader_obj, final_q): self._host = host self._task = task self._job_vars = job_vars self._play_context = play_context self._new_stdin = new_stdin self._loader = loader self._shared_loader_obj = shared_loader_obj self._connection = None self._final_q = final_q self._loop_eval_error = None self._task.squash() def run(self): ''' The main executor entrypoint, where we determine if the specified task requires looping and either runs the task with self._run_loop() or self._execute(). After that, the returned results are parsed and returned as a dict. ''' display.debug("in run() - task %s" % self._task._uuid) try: try: items = self._get_loop_items() except AnsibleUndefinedVariable as e: # save the error raised here for use later items = None self._loop_eval_error = e if items is not None: if len(items) > 0: item_results = self._run_loop(items) # create the overall result item res = dict(results=item_results) # loop through the item results and set the global changed/failed/skipped result flags based on any item. res['skipped'] = True for item in item_results: if 'changed' in item and item['changed'] and not res.get('changed'): res['changed'] = True if res['skipped'] and ('skipped' not in item or ('skipped' in item and not item['skipped'])): res['skipped'] = False if 'failed' in item and item['failed']: item_ignore = item.pop('_ansible_ignore_errors') if not res.get('failed'): res['failed'] = True res['msg'] = 'One or more items failed' self._task.ignore_errors = item_ignore elif self._task.ignore_errors and not item_ignore: self._task.ignore_errors = item_ignore # ensure to accumulate these for array in ['warnings', 'deprecations']: if array in item and item[array]: if array not in res: res[array] = [] if not isinstance(item[array], list): item[array] = [item[array]] res[array] = res[array] + item[array] del item[array] if not res.get('failed', False): res['msg'] = 'All items completed' if res['skipped']: res['msg'] = 'All items skipped' else: res = dict(changed=False, skipped=True, skipped_reason='No items in the list', results=[]) else: display.debug("calling self._execute()") res = self._execute() display.debug("_execute() done") # make sure changed is set in the result, if it's not present if 'changed' not in res: res['changed'] = False def _clean_res(res, errors='surrogate_or_strict'): if isinstance(res, binary_type): return to_unsafe_text(res, errors=errors) elif isinstance(res, dict): for k in res: try: res[k] = _clean_res(res[k], errors=errors) except UnicodeError: if k == 'diff': # If this is a diff, substitute a replacement character if the value # is undecodable as utf8. (Fix #21804) display.warning("We were unable to decode all characters in the module return data." " Replaced some in an effort to return as much as possible") res[k] = _clean_res(res[k], errors='surrogate_then_replace') else: raise elif isinstance(res, list): for idx, item in enumerate(res): res[idx] = _clean_res(item, errors=errors) return res display.debug("dumping result to json") res = _clean_res(res) display.debug("done dumping result, returning") return res except AnsibleError as e: return dict(failed=True, msg=wrap_var(to_text(e, nonstring='simplerepr')), _ansible_no_log=self._play_context.no_log) except Exception as e: return dict(failed=True, msg=wrap_var('Unexpected failure during module execution: %s' % (to_native(e, nonstring='simplerepr'))), exception=to_text(traceback.format_exc()), stdout='', _ansible_no_log=self._play_context.no_log) finally: try: self._connection.close() except AttributeError: pass except Exception as e: display.debug(u"error closing connection: %s" % to_text(e)) def _get_loop_items(self): ''' Loads a lookup plugin to handle the with_* portion of a task (if specified), and returns the items result. ''' # get search path for this task to pass to lookup plugins self._job_vars['ansible_search_path'] = self._task.get_search_path() # ensure basedir is always in (dwim already searches here but we need to display it) if self._loader.get_basedir() not in self._job_vars['ansible_search_path']: self._job_vars['ansible_search_path'].append(self._loader.get_basedir()) templar = Templar(loader=self._loader, variables=self._job_vars) items = None loop_cache = self._job_vars.get('_ansible_loop_cache') if loop_cache is not None: # _ansible_loop_cache may be set in `get_vars` when calculating `delegate_to` # to avoid reprocessing the loop items = loop_cache elif self._task.loop_with: if self._task.loop_with in self._shared_loader_obj.lookup_loader: fail = True if self._task.loop_with == 'first_found': # first_found loops are special. If the item is undefined then we want to fall through to the next value rather than failing. fail = False loop_terms = listify_lookup_plugin_terms(terms=self._task.loop, templar=templar, fail_on_undefined=fail, convert_bare=False) if not fail: loop_terms = [t for t in loop_terms if not templar.is_template(t)] # get lookup mylookup = self._shared_loader_obj.lookup_loader.get(self._task.loop_with, loader=self._loader, templar=templar) # give lookup task 'context' for subdir (mostly needed for first_found) for subdir in ['template', 'var', 'file']: # TODO: move this to constants? if subdir in self._task.action: break setattr(mylookup, '_subdir', subdir + 's') # run lookup items = wrap_var(mylookup.run(terms=loop_terms, variables=self._job_vars, wantlist=True)) else: raise AnsibleError("Unexpected failure in finding the lookup named '%s' in the available lookup plugins" % self._task.loop_with) elif self._task.loop is not None: items = templar.template(self._task.loop) if not isinstance(items, list): raise AnsibleError( "Invalid data passed to 'loop', it requires a list, got this instead: %s." " Hint: If you passed a list/dict of just one element," " try adding wantlist=True to your lookup invocation or use q/query instead of lookup." % items ) return items def _run_loop(self, items): ''' Runs the task with the loop items specified and collates the result into an array named 'results' which is inserted into the final result along with the item for which the loop ran. ''' task_vars = self._job_vars templar = Templar(loader=self._loader, variables=task_vars) self._task.loop_control.post_validate(templar=templar) loop_var = self._task.loop_control.loop_var index_var = self._task.loop_control.index_var loop_pause = self._task.loop_control.pause extended = self._task.loop_control.extended extended_allitems = self._task.loop_control.extended_allitems # ensure we always have a label label = self._task.loop_control.label or '{{' + loop_var + '}}' if loop_var in task_vars: display.warning(u"%s: The loop variable '%s' is already in use. " u"You should set the `loop_var` value in the `loop_control` option for the task" u" to something else to avoid variable collisions and unexpected behavior." % (self._task, loop_var)) ran_once = False no_log = False items_len = len(items) results = [] for item_index, item in enumerate(items): task_vars['ansible_loop_var'] = loop_var task_vars[loop_var] = item if index_var: task_vars['ansible_index_var'] = index_var task_vars[index_var] = item_index if extended: task_vars['ansible_loop'] = { 'index': item_index + 1, 'index0': item_index, 'first': item_index == 0, 'last': item_index + 1 == items_len, 'length': items_len, 'revindex': items_len - item_index, 'revindex0': items_len - item_index - 1, } if extended_allitems: task_vars['ansible_loop']['allitems'] = items try: task_vars['ansible_loop']['nextitem'] = items[item_index + 1] except IndexError: pass if item_index - 1 >= 0: task_vars['ansible_loop']['previtem'] = items[item_index - 1] # Update template vars to reflect current loop iteration templar.available_variables = task_vars # pause between loop iterations if loop_pause and ran_once: time.sleep(loop_pause) else: ran_once = True try: tmp_task = self._task.copy(exclude_parent=True, exclude_tasks=True) tmp_task._parent = self._task._parent tmp_play_context = self._play_context.copy() except AnsibleParserError as e: results.append(dict(failed=True, msg=to_text(e))) continue # now we swap the internal task and play context with their copies, # execute, and swap them back so we can do the next iteration cleanly (self._task, tmp_task) = (tmp_task, self._task) (self._play_context, tmp_play_context) = (tmp_play_context, self._play_context) res = self._execute(variables=task_vars) task_fields = self._task.dump_attrs() (self._task, tmp_task) = (tmp_task, self._task) (self._play_context, tmp_play_context) = (tmp_play_context, self._play_context) # update 'general no_log' based on specific no_log no_log = no_log or tmp_task.no_log # now update the result with the item info, and append the result # to the list of results res[loop_var] = item res['ansible_loop_var'] = loop_var if index_var: res[index_var] = item_index res['ansible_index_var'] = index_var if extended: res['ansible_loop'] = task_vars['ansible_loop'] res['_ansible_item_result'] = True res['_ansible_ignore_errors'] = task_fields.get('ignore_errors') # gets templated here unlike rest of loop_control fields, depends on loop_var above try: res['_ansible_item_label'] = templar.template(label) except AnsibleUndefinedVariable as e: res.update({ 'failed': True, 'msg': 'Failed to template loop_control.label: %s' % to_text(e) }) tr = TaskResult( self._host.name, self._task._uuid, res, task_fields=task_fields, ) if tr.is_failed() or tr.is_unreachable(): self._final_q.send_callback('v2_runner_item_on_failed', tr) elif tr.is_skipped(): self._final_q.send_callback('v2_runner_item_on_skipped', tr) else: if getattr(self._task, 'diff', False): self._final_q.send_callback('v2_on_file_diff', tr) if self._task.action not in C._ACTION_INVENTORY_TASKS: self._final_q.send_callback('v2_runner_item_on_ok', tr) results.append(res) del task_vars[loop_var] # clear 'connection related' plugin variables for next iteration if self._connection: clear_plugins = { 'connection': self._connection._load_name, 'shell': self._connection._shell._load_name } if self._connection.become: clear_plugins['become'] = self._connection.become._load_name for plugin_type, plugin_name in clear_plugins.items(): for var in C.config.get_plugin_vars(plugin_type, plugin_name): if var in task_vars and var not in self._job_vars: del task_vars[var] self._task.no_log = no_log return results def _execute(self, variables=None): ''' The primary workhorse of the executor system, this runs the task on the specified host (which may be the delegated_to host) and handles the retry/until and block rescue/always execution ''' if variables is None: variables = self._job_vars templar = Templar(loader=self._loader, variables=variables) context_validation_error = None # a certain subset of variables exist. tempvars = variables.copy() try: # TODO: remove play_context as this does not take delegation nor loops correctly into account, # the task itself should hold the correct values for connection/shell/become/terminal plugin options to finalize. # Kept for now for backwards compatibility and a few functions that are still exclusive to it. # apply the given task's information to the connection info, # which may override some fields already set by the play or # the options specified on the command line self._play_context = self._play_context.set_task_and_variable_override(task=self._task, variables=variables, templar=templar) # fields set from the play/task may be based on variables, so we have to # do the same kind of post validation step on it here before we use it. self._play_context.post_validate(templar=templar) # now that the play context is finalized, if the remote_addr is not set # default to using the host's address field as the remote address if not self._play_context.remote_addr: self._play_context.remote_addr = self._host.address # We also add "magic" variables back into the variables dict to make sure self._play_context.update_vars(tempvars) except AnsibleError as e: # save the error, which we'll raise later if we don't end up # skipping this task during the conditional evaluation step context_validation_error = e no_log = self._play_context.no_log # Evaluate the conditional (if any) for this task, which we do before running # the final task post-validation. We do this before the post validation due to # the fact that the conditional may specify that the task be skipped due to a # variable not being present which would otherwise cause validation to fail try: if not self._task.evaluate_conditional(templar, tempvars): display.debug("when evaluation is False, skipping this task") return dict(changed=False, skipped=True, skip_reason='Conditional result was False', _ansible_no_log=no_log) except AnsibleError as e: # loop error takes precedence if self._loop_eval_error is not None: # Display the error from the conditional as well to prevent # losing information useful for debugging. display.v(to_text(e)) raise self._loop_eval_error # pylint: disable=raising-bad-type raise # Not skipping, if we had loop error raised earlier we need to raise it now to halt the execution of this task if self._loop_eval_error is not None: raise self._loop_eval_error # pylint: disable=raising-bad-type # if we ran into an error while setting up the PlayContext, raise it now, unless is known issue with delegation # and undefined vars (correct values are in cvars later on and connection plugins, if still error, blows up there) if context_validation_error is not None: raiseit = True if self._task.delegate_to: if isinstance(context_validation_error, AnsibleUndefinedVariable): raiseit = False elif isinstance(context_validation_error, AnsibleParserError): # parser error, might be cause by undef too orig_exc = getattr(context_validation_error, 'orig_exc', None) if isinstance(orig_exc, AnsibleUndefinedVariable): raiseit = False if raiseit: raise context_validation_error # pylint: disable=raising-bad-type # set templar to use temp variables until loop is evaluated templar.available_variables = tempvars # if this task is a TaskInclude, we just return now with a success code so the # main thread can expand the task list for the given host if self._task.action in C._ACTION_ALL_INCLUDE_TASKS: include_args = self._task.args.copy() include_file = include_args.pop('_raw_params', None) if not include_file: return dict(failed=True, msg="No include file was specified to the include") include_file = templar.template(include_file) return dict(include=include_file, include_args=include_args) # if this task is a IncludeRole, we just return now with a success code so the main thread can expand the task list for the given host elif self._task.action in C._ACTION_INCLUDE_ROLE: include_args = self._task.args.copy() return dict(include_args=include_args) # Now we do final validation on the task, which sets all fields to their final values. try: self._task.post_validate(templar=templar) except AnsibleError: raise except Exception: return dict(changed=False, failed=True, _ansible_no_log=no_log, exception=to_text(traceback.format_exc())) if '_variable_params' in self._task.args: variable_params = self._task.args.pop('_variable_params') if isinstance(variable_params, dict): if C.INJECT_FACTS_AS_VARS: display.warning("Using a variable for a task's 'args' is unsafe in some situations " "(see https://docs.ansible.com/ansible/devel/reference_appendices/faq.html#argsplat-unsafe)") variable_params.update(self._task.args) self._task.args = variable_params else: # if we didn't get a dict, it means there's garbage remaining after k=v parsing, just give up # see https://github.com/ansible/ansible/issues/79862 raise AnsibleError(f"invalid or malformed argument: '{variable_params}'") # update no_log to task value, now that we have it templated no_log = self._task.no_log # free tempvars up, not used anymore, cvars and vars_copy should be mainly used after this point # updating the original 'variables' at the end tempvars = {} # setup cvars copy, used for all connection related templating if self._task.delegate_to: # use vars from delegated host (which already include task vars) instead of original host cvars = variables.get('ansible_delegated_vars', {}).get(self._task.delegate_to, {}) else: # just use normal host vars cvars = variables templar.available_variables = cvars # use magic var if it exists, if not, let task inheritance do it's thing. if cvars.get('ansible_connection') is not None: current_connection = templar.template(cvars['ansible_connection']) else: current_connection = self._task.connection # get the connection and the handler for this execution if (not self._connection or not getattr(self._connection, 'connected', False) or not self._connection.matches_name([current_connection]) or # pc compare, left here for old plugins, but should be irrelevant for those # using get_option, since they are cleared each iteration. self._play_context.remote_addr != self._connection._play_context.remote_addr): self._connection = self._get_connection(cvars, templar, current_connection) else: # if connection is reused, its _play_context is no longer valid and needs # to be replaced with the one templated above, in case other data changed self._connection._play_context = self._play_context self._set_become_plugin(cvars, templar, self._connection) plugin_vars = self._set_connection_options(cvars, templar) # make a copy of the job vars here, as we update them here and later, # but don't want to pollute original vars_copy = variables.copy() # update with connection info (i.e ansible_host/ansible_user) self._connection.update_vars(vars_copy) templar.available_variables = vars_copy # TODO: eventually remove as pc is taken out of the resolution path # feed back into pc to ensure plugins not using get_option can get correct value self._connection._play_context = self._play_context.set_task_and_variable_override(task=self._task, variables=vars_copy, templar=templar) # for persistent connections, initialize socket path and start connection manager if any(((self._connection.supports_persistence and C.USE_PERSISTENT_CONNECTIONS), self._connection.force_persistence)): self._play_context.timeout = self._connection.get_option('persistent_command_timeout') display.vvvv('attempting to start connection', host=self._play_context.remote_addr) display.vvvv('using connection plugin %s' % self._connection.transport, host=self._play_context.remote_addr) options = self._connection.get_options() socket_path = start_connection(self._play_context, options, self._task._uuid) display.vvvv('local domain socket path is %s' % socket_path, host=self._play_context.remote_addr) setattr(self._connection, '_socket_path', socket_path) # TODO: eventually remove this block as this should be a 'consequence' of 'forced_local' modules # special handling for python interpreter for network_os, default to ansible python unless overridden if 'ansible_network_os' in cvars and 'ansible_python_interpreter' not in cvars: # this also avoids 'python discovery' cvars['ansible_python_interpreter'] = sys.executable # get handler self._handler, module_context = self._get_action_handler_with_module_context(connection=self._connection, templar=templar) if module_context is not None: module_defaults_fqcn = module_context.resolved_fqcn else: module_defaults_fqcn = self._task.resolved_action # Apply default params for action/module, if present self._task.args = get_action_args_with_defaults( module_defaults_fqcn, self._task.args, self._task.module_defaults, templar, action_groups=self._task._parent._play._action_groups ) # And filter out any fields which were set to default(omit), and got the omit token value omit_token = variables.get('omit') if omit_token is not None: self._task.args = remove_omit(self._task.args, omit_token) # Read some values from the task, so that we can modify them if need be if self._task.until: retries = self._task.retries if retries is None: retries = 3 elif retries <= 0: retries = 1 else: retries += 1 else: retries = 1 delay = self._task.delay if delay < 0: delay = 1 display.debug("starting attempt loop") result = None for attempt in range(1, retries + 1): display.debug("running the handler") try: if self._task.timeout: old_sig = signal.signal(signal.SIGALRM, task_timeout) signal.alarm(self._task.timeout) result = self._handler.run(task_vars=vars_copy) except (AnsibleActionFail, AnsibleActionSkip) as e: return e.result except AnsibleConnectionFailure as e: return dict(unreachable=True, msg=to_text(e)) except TaskTimeoutError as e: msg = 'The %s action failed to execute in the expected time frame (%d) and was terminated' % (self._task.action, self._task.timeout) return dict(failed=True, msg=msg) finally: if self._task.timeout: signal.alarm(0) old_sig = signal.signal(signal.SIGALRM, old_sig) self._handler.cleanup() display.debug("handler run complete") # preserve no log result["_ansible_no_log"] = no_log if self._task.action not in C._ACTION_WITH_CLEAN_FACTS: result = wrap_var(result) # update the local copy of vars with the registered value, if specified, # or any facts which may have been generated by the module execution if self._task.register: if not isidentifier(self._task.register): raise AnsibleError("Invalid variable name in 'register' specified: '%s'" % self._task.register) vars_copy[self._task.register] = result if self._task.async_val > 0: if self._task.poll > 0 and not result.get('skipped') and not result.get('failed'): result = self._poll_async_result(result=result, templar=templar, task_vars=vars_copy) if result.get('failed'): self._final_q.send_callback( 'v2_runner_on_async_failed', TaskResult(self._host.name, self._task._uuid, result, task_fields=self._task.dump_attrs())) else: self._final_q.send_callback( 'v2_runner_on_async_ok', TaskResult(self._host.name, self._task._uuid, result, task_fields=self._task.dump_attrs())) # ensure no log is preserved result["_ansible_no_log"] = no_log # helper methods for use below in evaluating changed/failed_when def _evaluate_changed_when_result(result): if self._task.changed_when is not None and self._task.changed_when: cond = Conditional(loader=self._loader) cond.when = self._task.changed_when result['changed'] = cond.evaluate_conditional(templar, vars_copy) def _evaluate_failed_when_result(result): if self._task.failed_when: cond = Conditional(loader=self._loader) cond.when = self._task.failed_when failed_when_result = cond.evaluate_conditional(templar, vars_copy) result['failed_when_result'] = result['failed'] = failed_when_result else: failed_when_result = False return failed_when_result if 'ansible_facts' in result and self._task.action not in C._ACTION_DEBUG: if self._task.action in C._ACTION_WITH_CLEAN_FACTS: if self._task.delegate_to and self._task.delegate_facts: if '_ansible_delegated_vars' in vars_copy: vars_copy['_ansible_delegated_vars'].update(result['ansible_facts']) else: vars_copy['_ansible_delegated_vars'] = result['ansible_facts'] else: vars_copy.update(result['ansible_facts']) else: # TODO: cleaning of facts should eventually become part of taskresults instead of vars af = wrap_var(result['ansible_facts']) vars_copy['ansible_facts'] = combine_vars(vars_copy.get('ansible_facts', {}), namespace_facts(af)) if C.INJECT_FACTS_AS_VARS: vars_copy.update(clean_facts(af)) # set the failed property if it was missing. if 'failed' not in result: # rc is here for backwards compatibility and modules that use it instead of 'failed' if 'rc' in result and result['rc'] not in [0, "0"]: result['failed'] = True else: result['failed'] = False # Make attempts and retries available early to allow their use in changed/failed_when if self._task.until: result['attempts'] = attempt # set the changed property if it was missing. if 'changed' not in result: result['changed'] = False if self._task.action not in C._ACTION_WITH_CLEAN_FACTS: result = wrap_var(result) # re-update the local copy of vars with the registered value, if specified, # or any facts which may have been generated by the module execution # This gives changed/failed_when access to additional recently modified # attributes of result if self._task.register: vars_copy[self._task.register] = result # if we didn't skip this task, use the helpers to evaluate the changed/ # failed_when properties if 'skipped' not in result: condname = 'changed' try: _evaluate_changed_when_result(result) condname = 'failed' _evaluate_failed_when_result(result) except AnsibleError as e: result['failed'] = True result['%s_when_result' % condname] = to_text(e) if retries > 1: cond = Conditional(loader=self._loader) cond.when = self._task.until if cond.evaluate_conditional(templar, vars_copy): break else: # no conditional check, or it failed, so sleep for the specified time if attempt < retries: result['_ansible_retry'] = True result['retries'] = retries display.debug('Retrying task, attempt %d of %d' % (attempt, retries)) self._final_q.send_callback( 'v2_runner_retry', TaskResult( self._host.name, self._task._uuid, result, task_fields=self._task.dump_attrs() ) ) time.sleep(delay) self._handler = self._get_action_handler(connection=self._connection, templar=templar) else: if retries > 1: # we ran out of attempts, so mark the result as failed result['attempts'] = retries - 1 result['failed'] = True if self._task.action not in C._ACTION_WITH_CLEAN_FACTS: result = wrap_var(result) # do the final update of the local variables here, for both registered # values and any facts which may have been created if self._task.register: variables[self._task.register] = result if 'ansible_facts' in result and self._task.action not in C._ACTION_DEBUG: if self._task.action in C._ACTION_WITH_CLEAN_FACTS: variables.update(result['ansible_facts']) else: # TODO: cleaning of facts should eventually become part of taskresults instead of vars af = wrap_var(result['ansible_facts']) variables['ansible_facts'] = combine_vars(variables.get('ansible_facts', {}), namespace_facts(af)) if C.INJECT_FACTS_AS_VARS: variables.update(clean_facts(af)) # save the notification target in the result, if it was specified, as # this task may be running in a loop in which case the notification # may be item-specific, ie. "notify: service {{item}}" if self._task.notify is not None: result['_ansible_notify'] = self._task.notify # add the delegated vars to the result, so we can reference them # on the results side without having to do any further templating # also now add connection vars results when delegating if self._task.delegate_to: result["_ansible_delegated_vars"] = {'ansible_delegated_host': self._task.delegate_to} for k in plugin_vars: result["_ansible_delegated_vars"][k] = cvars.get(k) # note: here for callbacks that rely on this info to display delegation for requireshed in ('ansible_host', 'ansible_port', 'ansible_user', 'ansible_connection'): if requireshed not in result["_ansible_delegated_vars"] and requireshed in cvars: result["_ansible_delegated_vars"][requireshed] = cvars.get(requireshed) # and return display.debug("attempt loop complete, returning result") return result def _poll_async_result(self, result, templar, task_vars=None): ''' Polls for the specified JID to be complete ''' if task_vars is None: task_vars = self._job_vars async_jid = result.get('ansible_job_id') if async_jid is None: return dict(failed=True, msg="No job id was returned by the async task") # Create a new pseudo-task to run the async_status module, and run # that (with a sleep for "poll" seconds between each retry) until the # async time limit is exceeded. async_task = Task.load(dict(action='async_status', args={'jid': async_jid}, environment=self._task.environment)) # FIXME: this is no longer the case, normal takes care of all, see if this can just be generalized # Because this is an async task, the action handler is async. However, # we need the 'normal' action handler for the status check, so get it # now via the action_loader async_handler = self._shared_loader_obj.action_loader.get( 'ansible.legacy.async_status', task=async_task, connection=self._connection, play_context=self._play_context, loader=self._loader, templar=templar, shared_loader_obj=self._shared_loader_obj, ) time_left = self._task.async_val while time_left > 0: time.sleep(self._task.poll) try: async_result = async_handler.run(task_vars=task_vars) # We do not bail out of the loop in cases where the failure # is associated with a parsing error. The async_runner can # have issues which result in a half-written/unparseable result # file on disk, which manifests to the user as a timeout happening # before it's time to timeout. if (int(async_result.get('finished', 0)) == 1 or ('failed' in async_result and async_result.get('_ansible_parsed', False)) or 'skipped' in async_result): break except Exception as e: # Connections can raise exceptions during polling (eg, network bounce, reboot); these should be non-fatal. # On an exception, call the connection's reset method if it has one # (eg, drop/recreate WinRM connection; some reused connections are in a broken state) display.vvvv("Exception during async poll, retrying... (%s)" % to_text(e)) display.debug("Async poll exception was:\n%s" % to_text(traceback.format_exc())) try: async_handler._connection.reset() except AttributeError: pass # Little hack to raise the exception if we've exhausted the timeout period time_left -= self._task.poll if time_left <= 0: raise else: time_left -= self._task.poll self._final_q.send_callback( 'v2_runner_on_async_poll', TaskResult( self._host.name, async_task._uuid, async_result, task_fields=async_task.dump_attrs(), ), ) if int(async_result.get('finished', 0)) != 1: if async_result.get('_ansible_parsed'): return dict(failed=True, msg="async task did not complete within the requested time - %ss" % self._task.async_val, async_result=async_result) else: return dict(failed=True, msg="async task produced unparseable results", async_result=async_result) else: # If the async task finished, automatically cleanup the temporary # status file left behind. cleanup_task = Task.load( { 'async_status': { 'jid': async_jid, 'mode': 'cleanup', }, 'environment': self._task.environment, } ) cleanup_handler = self._shared_loader_obj.action_loader.get( 'ansible.legacy.async_status', task=cleanup_task, connection=self._connection, play_context=self._play_context, loader=self._loader, templar=templar, shared_loader_obj=self._shared_loader_obj, ) cleanup_handler.run(task_vars=task_vars) cleanup_handler.cleanup(force=True) async_handler.cleanup(force=True) return async_result def _get_become(self, name): become = become_loader.get(name) if not become: raise AnsibleError("Invalid become method specified, could not find matching plugin: '%s'. " "Use `ansible-doc -t become -l` to list available plugins." % name) return become def _get_connection(self, cvars, templar, current_connection): ''' Reads the connection property for the host, and returns the correct connection object from the list of connection plugins ''' self._play_context.connection = current_connection # TODO: play context has logic to update the connection for 'smart' # (default value, will chose between ssh and paramiko) and 'persistent' # (really paramiko), eventually this should move to task object itself. conn_type = self._play_context.connection connection, plugin_load_context = self._shared_loader_obj.connection_loader.get_with_context( conn_type, self._play_context, self._new_stdin, task_uuid=self._task._uuid, ansible_playbook_pid=to_text(os.getppid()) ) if not connection: raise AnsibleError("the connection plugin '%s' was not found" % conn_type) self._set_become_plugin(cvars, templar, connection) # Also backwards compat call for those still using play_context self._play_context.set_attributes_from_plugin(connection) return connection def _set_become_plugin(self, cvars, templar, connection): # load become plugin if needed if cvars.get('ansible_become') is not None: become = boolean(templar.template(cvars['ansible_become'])) else: become = self._task.become if become: if cvars.get('ansible_become_method'): become_plugin = self._get_become(templar.template(cvars['ansible_become_method'])) else: become_plugin = self._get_become(self._task.become_method) else: # If become is not enabled on the task it needs to be removed from the connection plugin # https://github.com/ansible/ansible/issues/78425 become_plugin = None try: connection.set_become_plugin(become_plugin) except AttributeError: # Older connection plugin that does not support set_become_plugin pass if become_plugin: if getattr(connection.become, 'require_tty', False) and not getattr(connection, 'has_tty', False): raise AnsibleError( "The '%s' connection does not provide a TTY which is required for the selected " "become plugin: %s." % (connection._load_name, become_plugin.name) ) # Backwards compat for connection plugins that don't support become plugins # Just do this unconditionally for now, we could move it inside of the # AttributeError above later self._play_context.set_become_plugin(become_plugin.name) def _set_plugin_options(self, plugin_type, variables, templar, task_keys): try: plugin = getattr(self._connection, '_%s' % plugin_type) except AttributeError: # Some plugins are assigned to private attrs, ``become`` is not plugin = getattr(self._connection, plugin_type) # network_cli's "real" connection plugin is not named connection # to avoid the confusion of having connection.connection if plugin_type == "ssh_type_conn": plugin_type = "connection" option_vars = C.config.get_plugin_vars(plugin_type, plugin._load_name) options = {} for k in option_vars: if k in variables: options[k] = templar.template(variables[k]) # TODO move to task method? plugin.set_options(task_keys=task_keys, var_options=options) return option_vars def _set_connection_options(self, variables, templar): # keep list of variable names possibly consumed varnames = [] # grab list of usable vars for this plugin option_vars = C.config.get_plugin_vars('connection', self._connection._load_name) varnames.extend(option_vars) # create dict of 'templated vars' options = {'_extras': {}} for k in option_vars: if k in variables: options[k] = templar.template(variables[k]) # add extras if plugin supports them if getattr(self._connection, 'allow_extras', False): for k in variables: if k.startswith('ansible_%s_' % self._connection._load_name) and k not in options: options['_extras'][k] = templar.template(variables[k]) task_keys = self._task.dump_attrs() # The task_keys 'timeout' attr is the task's timeout, not the connection timeout. # The connection timeout is threaded through the play_context for now. task_keys['timeout'] = self._play_context.timeout if self._play_context.password: # The connection password is threaded through the play_context for # now. This is something we ultimately want to avoid, but the first # step is to get connection plugins pulling the password through the # config system instead of directly accessing play_context. task_keys['password'] = self._play_context.password # Prevent task retries from overriding connection retries del task_keys['retries'] # set options with 'templated vars' specific to this plugin and dependent ones self._connection.set_options(task_keys=task_keys, var_options=options) varnames.extend(self._set_plugin_options('shell', variables, templar, task_keys)) if self._connection.become is not None: if self._play_context.become_pass: # FIXME: eventually remove from task and play_context, here for backwards compat # keep out of play objects to avoid accidental disclosure, only become plugin should have # The become pass is already in the play_context if given on # the CLI (-K). Make the plugin aware of it in this case. task_keys['become_pass'] = self._play_context.become_pass varnames.extend(self._set_plugin_options('become', variables, templar, task_keys)) # FOR BACKWARDS COMPAT: for option in ('become_user', 'become_flags', 'become_exe', 'become_pass'): try: setattr(self._play_context, option, self._connection.become.get_option(option)) except KeyError: pass # some plugins don't support all base flags self._play_context.prompt = self._connection.become.prompt # deals with networking sub_plugins (network_cli/httpapi/netconf) sub = getattr(self._connection, '_sub_plugin', None) if sub is not None and sub.get('type') != 'external': plugin_type = get_plugin_class(sub.get("obj")) varnames.extend(self._set_plugin_options(plugin_type, variables, templar, task_keys)) sub_conn = getattr(self._connection, 'ssh_type_conn', None) if sub_conn is not None: varnames.extend(self._set_plugin_options("ssh_type_conn", variables, templar, task_keys)) return varnames def _get_action_handler(self, connection, templar): ''' Returns the correct action plugin to handle the requestion task action ''' return self._get_action_handler_with_module_context(connection, templar)[0] def _get_action_handler_with_module_context(self, connection, templar): ''' Returns the correct action plugin to handle the requestion task action and the module context ''' module_collection, separator, module_name = self._task.action.rpartition(".") module_prefix = module_name.split('_')[0] if module_collection: # For network modules, which look for one action plugin per platform, look for the # action plugin in the same collection as the module by prefixing the action plugin # with the same collection. network_action = "{0}.{1}".format(module_collection, module_prefix) else: network_action = module_prefix collections = self._task.collections # Check if the module has specified an action handler module = self._shared_loader_obj.module_loader.find_plugin_with_context( self._task.action, collection_list=collections ) if not module.resolved or not module.action_plugin: module = None if module is not None: handler_name = module.action_plugin # let action plugin override module, fallback to 'normal' action plugin otherwise elif self._shared_loader_obj.action_loader.has_plugin(self._task.action, collection_list=collections): handler_name = self._task.action elif all((module_prefix in C.NETWORK_GROUP_MODULES, self._shared_loader_obj.action_loader.has_plugin(network_action, collection_list=collections))): handler_name = network_action display.vvvv("Using network group action {handler} for {action}".format(handler=handler_name, action=self._task.action), host=self._play_context.remote_addr) else: # use ansible.legacy.normal to allow (historic) local action_plugins/ override without collections search handler_name = 'ansible.legacy.normal' collections = None # until then, we don't want the task's collection list to be consulted; use the builtin handler = self._shared_loader_obj.action_loader.get( handler_name, task=self._task, connection=connection, play_context=self._play_context, loader=self._loader, templar=templar, shared_loader_obj=self._shared_loader_obj, collection_list=collections ) if not handler: raise AnsibleError("the handler '%s' was not found" % handler_name) return handler, module def start_connection(play_context, options, task_uuid): ''' Starts the persistent connection ''' candidate_paths = [C.ANSIBLE_CONNECTION_PATH or os.path.dirname(sys.argv[0])] candidate_paths.extend(os.environ.get('PATH', '').split(os.pathsep)) for dirname in candidate_paths: ansible_connection = os.path.join(dirname, 'ansible-connection') if os.path.isfile(ansible_connection): display.vvvv("Found ansible-connection at path {0}".format(ansible_connection)) break else: raise AnsibleError("Unable to find location of 'ansible-connection'. " "Please set or check the value of ANSIBLE_CONNECTION_PATH") env = os.environ.copy() env.update({ # HACK; most of these paths may change during the controller's lifetime # (eg, due to late dynamic role includes, multi-playbook execution), without a way # to invalidate/update, ansible-connection won't always see the same plugins the controller # can. 'ANSIBLE_BECOME_PLUGINS': become_loader.print_paths(), 'ANSIBLE_CLICONF_PLUGINS': cliconf_loader.print_paths(), 'ANSIBLE_COLLECTIONS_PATH': to_native(os.pathsep.join(AnsibleCollectionConfig.collection_paths)), 'ANSIBLE_CONNECTION_PLUGINS': connection_loader.print_paths(), 'ANSIBLE_HTTPAPI_PLUGINS': httpapi_loader.print_paths(), 'ANSIBLE_NETCONF_PLUGINS': netconf_loader.print_paths(), 'ANSIBLE_TERMINAL_PLUGINS': terminal_loader.print_paths(), }) verbosity = [] if display.verbosity: verbosity.append('-%s' % ('v' * display.verbosity)) python = sys.executable master, slave = pty.openpty() p = subprocess.Popen( [python, ansible_connection, *verbosity, to_text(os.getppid()), to_text(task_uuid)], stdin=slave, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=env ) os.close(slave) # We need to set the pty into noncanonical mode. This ensures that we # can receive lines longer than 4095 characters (plus newline) without # truncating. old = termios.tcgetattr(master) new = termios.tcgetattr(master) new[3] = new[3] & ~termios.ICANON try: termios.tcsetattr(master, termios.TCSANOW, new) write_to_file_descriptor(master, options) write_to_file_descriptor(master, play_context.serialize()) (stdout, stderr) = p.communicate() finally: termios.tcsetattr(master, termios.TCSANOW, old) os.close(master) if p.returncode == 0: result = json.loads(to_text(stdout, errors='surrogate_then_replace')) else: try: result = json.loads(to_text(stderr, errors='surrogate_then_replace')) except getattr(json.decoder, 'JSONDecodeError', ValueError): # JSONDecodeError only available on Python 3.5+ result = {'error': to_text(stderr, errors='surrogate_then_replace')} if 'messages' in result: for level, message in result['messages']: if level == 'log': display.display(message, log_only=True) elif level in ('debug', 'v', 'vv', 'vvv', 'vvvv', 'vvvvv', 'vvvvvv'): getattr(display, level)(message, host=play_context.remote_addr) else: if hasattr(display, level): getattr(display, level)(message) else: display.vvvv(message, host=play_context.remote_addr) if 'error' in result: if display.verbosity > 2: if result.get('exception'): msg = "The full traceback is:\n" + result['exception'] display.display(msg, color=C.COLOR_ERROR) raise AnsibleError(result['error']) return result['socket_path']