# (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 pipes import subprocess import sys import time from ansible import constants as C from ansible.errors import AnsibleError, AnsibleParserError from ansible.playbook.conditional import Conditional from ansible.playbook.task import Task from ansible.plugins import lookup_loader, connection_loader, action_loader from ansible.template import Templar from ansible.utils.listify import listify_lookup_plugin_terms from ansible.utils.unicode import to_unicode from ansible.utils.debug import debug __all__ = ['TaskExecutor'] 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. ''' # Modules that we optimize by squashing loop items into a single call to # the module SQUASH_ACTIONS = frozenset(('apt', 'yum', 'pkgng', 'zypper', 'dnf')) def __init__(self, host, task, job_vars, play_context, new_stdin, loader, shared_loader_obj): 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 try: from __main__ import display self._display = display except ImportError: from ansible.utils.display import Display self._display = Display() def run(self): ''' The main executor entrypoint, where we determine if the specified task requires looping and either runs the task with ''' debug("in run()") try: # lookup plugins need to know if this task is executing from # a role, so that it can properly find files/templates/etc. roledir = None if self._task._role: roledir = self._task._role._role_path self._job_vars['roledir'] = roledir items = self._get_loop_items() if items is not None: if len(items) > 0: item_results = self._run_loop(items) # loop through the item results, and remember the changed/failed # result flags based on any item there. changed = False failed = False for item in item_results: if 'changed' in item and item['changed']: changed = True if 'failed' in item and item['failed']: failed = True # create the overall result item, and set the changed/failed # flags there to reflect the overall result of the loop res = dict(results=item_results) if changed: res['changed'] = True if failed: res['failed'] = True res['msg'] = 'One or more items failed' else: res['msg'] = 'All items completed' else: res = dict(changed=False, skipped=True, skipped_reason='No items in the list', results=[]) else: debug("calling self._execute()") res = self._execute() debug("_execute() done") # make sure changed is set in the result, if it's not present if 'changed' not in res: res['changed'] = False debug("dumping result to json") result = json.dumps(res) debug("done dumping result, returning") return result except AnsibleError, e: return dict(failed=True, msg=to_unicode(e, nonstring='simplerepr')) def _get_loop_items(self): ''' Loads a lookup plugin to handle the with_* portion of a task (if specified), and returns the items result. ''' items = None if self._task.loop and self._task.loop in lookup_loader: loop_terms = listify_lookup_plugin_terms(terms=self._task.loop_args, variables=self._job_vars, loader=self._loader) items = lookup_loader.get(self._task.loop, loader=self._loader).run(terms=loop_terms, variables=self._job_vars) 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. ''' results = [] # make copies of the job vars and task so we can add the item to # the variables and re-validate the task with the item variable task_vars = self._job_vars.copy() items = self._squash_items(items, task_vars) for item in items: task_vars['item'] = item try: tmp_task = self._task.copy() except AnsibleParserError, e: results.append(dict(failed=True, msg=str(e))) continue # now we swap the internal task with the copy, execute, # and swap them back so we can do the next iteration cleanly (self._task, tmp_task) = (tmp_task, self._task) res = self._execute(variables=task_vars) (self._task, tmp_task) = (tmp_task, self._task) # now update the result with the item info, and append the result # to the list of results res['item'] = item results.append(res) return results def _squash_items(self, items, variables): ''' Squash items down to a comma-separated list for certain modules which support it (typically package management modules). ''' if len(items) > 0 and self._task.action in self.SQUASH_ACTIONS: final_items = [] name = self._task.args.pop('name', None) or self._task.args.pop('pkg', None) for item in items: variables['item'] = item templar = Templar(loader=self._loader, shared_loader_obj=self._shared_loader_obj, variables=variables) if self._task.evaluate_conditional(templar, variables): if templar._contains_vars(name): new_item = templar.template(name) final_items.append(new_item) else: final_items.append(item) joined_items = ",".join(final_items) self._task.args['name'] = joined_items return [joined_items] else: return items 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, shared_loader_obj=self._shared_loader_obj, variables=variables) # 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, we can add 'magic' # variables to the variable dictionary self._play_context.update_vars(variables) # 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 if not self._task.evaluate_conditional(templar, variables): debug("when evaulation failed, skipping this task") return dict(changed=False, skipped=True, skip_reason='Conditional check failed') # Now we do final validation on the task, which sets all fields to their final values. # In the case of debug tasks, we save any 'var' params and restore them after validating # so that variables are not replaced too early. prev_var = None if self._task.action == 'debug' and 'var' in self._task.args: prev_var = self._task.args.pop('var') self._task.post_validate(templar=templar) if '_variable_params' in self._task.args: variable_params = self._task.args.pop('_variable_params') if isinstance(variable_params, dict): self._display.deprecated("Using variables for task params is unsafe, especially if the variables come from an external source like facts") variable_params.update(self._task.args) self._task.args = variable_params if prev_var is not None: self._task.args['var'] = prev_var # 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 == 'include': include_variables = self._task.args.copy() include_file = include_variables.get('_raw_params') del include_variables['_raw_params'] return dict(include=include_file, include_variables=include_variables) # get the connection and the handler for this execution self._connection = self._get_connection(variables) self._connection.set_host_overrides(host=self._host) self._handler = self._get_action_handler(connection=self._connection, templar=templar) # 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 = dict(filter(lambda x: x[1] != omit_token, self._task.args.iteritems())) # Read some values from the task, so that we can modify them if need be retries = self._task.retries if retries <= 0: retries = 1 delay = self._task.delay if delay < 0: delay = 1 # make a copy of the job vars here, in case we need to update them # with the registered variable value later on when testing conditions vars_copy = variables.copy() debug("starting attempt loop") result = None for attempt in range(retries): if attempt > 0: # FIXME: this should use the callback/message passing mechanism print("FAILED - RETRYING: %s (%d retries left). Result was: %s" % (self._task, retries-attempt, result)) result['attempts'] = attempt + 1 debug("running the handler") result = self._handler.run(task_vars=variables) debug("handler run complete") if self._task.async > 0: # the async_wrapper module returns dumped JSON via its stdout # response, so we parse it here and replace the result try: result = json.loads(result.get('stdout')) except (TypeError, ValueError) as e: return dict(failed=True, msg="The async task did not return valid JSON: %s" % str(e)) if self._task.poll > 0: result = self._poll_async_result(result=result, templar=templar) # 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: vars_copy[self._task.register] = result if 'ansible_facts' in result: vars_copy.update(result['ansible_facts']) # create a conditional object to evaluate task conditions cond = Conditional(loader=self._loader) # FIXME: make sure until is mutually exclusive with changed_when/failed_when if self._task.until: cond.when = self._task.until if cond.evaluate_conditional(templar, vars_copy): break elif (self._task.changed_when or self._task.failed_when) and 'skipped' not in result: if self._task.changed_when: cond.when = [ self._task.changed_when ] result['changed'] = cond.evaluate_conditional(templar, vars_copy) if self._task.failed_when: cond.when = [ self._task.failed_when ] failed_when_result = cond.evaluate_conditional(templar, vars_copy) result['failed_when_result'] = result['failed'] = failed_when_result if failed_when_result: break elif 'failed' not in result: if result.get('rc', 0) != 0: result['failed'] = True else: # if the result is not failed, stop trying break if attempt < retries - 1: time.sleep(delay) # 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: variables.update(result['ansible_facts']) # 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 # and return debug("attempt loop complete, returning result") return result def _poll_async_result(self, result, templar): ''' Polls for the specified JID to be complete ''' 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 psuedo-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 jid=%s' % async_jid)) # 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 normal_handler = action_loader.get( 'normal', 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 while time_left > 0: time.sleep(self._task.poll) async_result = normal_handler.run() if int(async_result.get('finished', 0)) == 1 or 'failed' in async_result or 'skipped' in async_result: break time_left -= self._task.poll if int(async_result.get('finished', 0)) != 1: return dict(failed=True, msg="async task did not complete within the requested time") else: return async_result def _get_connection(self, variables): ''' Reads the connection property for the host, and returns the correct connection object from the list of connection plugins ''' # FIXME: delegate_to calculation should be done here # FIXME: calculation of connection params/auth stuff should be done here if not self._play_context.remote_addr: self._play_context.remote_addr = self._host.ipv4_address if self._task.delegate_to is not None: self._compute_delegate(variables) conn_type = self._play_context.connection if conn_type == 'smart': conn_type = 'ssh' if sys.platform.startswith('darwin') and self._play_context.password: # due to a current bug in sshpass on OSX, which can trigger # a kernel panic even for non-privileged users, we revert to # paramiko on that OS when a SSH password is specified conn_type = "paramiko" else: # see if SSH can support ControlPersist if not use paramiko try: cmd = subprocess.Popen(['ssh','-o','ControlPersist'], stdout=subprocess.PIPE, stderr=subprocess.PIPE) (out, err) = cmd.communicate() if "Bad configuration option" in err: conn_type = "paramiko" except OSError: conn_type = "paramiko" connection = connection_loader.get(conn_type, self._play_context, self._new_stdin) if not connection: raise AnsibleError("the connection plugin '%s' was not found" % conn_type) return connection def _get_action_handler(self, connection, templar): ''' Returns the correct action plugin to handle the requestion task action ''' if self._task.action in action_loader: if self._task.async != 0: raise AnsibleError("async mode is not supported with the %s module" % module_name) handler_name = self._task.action elif self._task.async == 0: handler_name = 'normal' else: handler_name = 'async' handler = 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, ) if not handler: raise AnsibleError("the handler '%s' was not found" % handler_name) return handler def _compute_delegate(self, variables): # get the vars for the delegate by its name try: this_info = variables['hostvars'][self._task.delegate_to] # get the real ssh_address for the delegate and allow ansible_ssh_host to be templated #self._play_context.remote_user = self._compute_delegate_user(self.delegate_to, delegate['inject']) self._play_context.remote_addr = this_info.get('ansible_ssh_host', self._task.delegate_to) self._play_context.port = this_info.get('ansible_ssh_port', self._play_context.port) self._play_context.password = this_info.get('ansible_ssh_pass', self._play_context.password) self._play_context.private_key_file = this_info.get('ansible_ssh_private_key_file', self._play_context.private_key_file) self._play_context.connection = this_info.get('ansible_connection', C.DEFAULT_TRANSPORT) self._play_context.become_pass = this_info.get('ansible_sudo_pass', self._play_context.become_pass) except: # make sure the inject is empty for non-inventory hosts this_info = {} if self._play_context.remote_addr in ('127.0.0.1', 'localhost'): self._play_context.connection = 'local' # Last chance to get private_key_file from global variables. # this is useful if delegated host is not defined in the inventory #if delegate['private_key_file'] is None: # delegate['private_key_file'] = remote_inject.get('ansible_ssh_private_key_file', None) #if delegate['private_key_file'] is not None: # delegate['private_key_file'] = os.path.expanduser(delegate['private_key_file']) for i in this_info: if i.startswith("ansible_") and i.endswith("_interpreter"): variables[i] = this_info[i]