# (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 os from ansible import constants as C from ansible.errors import AnsibleError, AnsibleParserError, AnsibleUndefinedVariable, AnsibleAssertionError from ansible.module_utils.six import iteritems, string_types from ansible.module_utils._text import to_native from ansible.parsing.mod_args import ModuleArgsParser from ansible.parsing.yaml.objects import AnsibleBaseYAMLObject, AnsibleMapping from ansible.plugins.loader import lookup_loader from ansible.playbook.attribute import FieldAttribute from ansible.playbook.base import Base from ansible.playbook.become import Become from ansible.playbook.block import Block from ansible.playbook.conditional import Conditional from ansible.playbook.loop_control import LoopControl from ansible.playbook.role import Role from ansible.playbook.taggable import Taggable from ansible.utils.display import Display from ansible.utils.sentinel import Sentinel __all__ = ['Task'] display = Display() class Task(Base, Conditional, Taggable, Become): """ A task is a language feature that represents a call to a module, with given arguments and other parameters. A handler is a subclass of a task. Usage: Task.load(datastructure) -> Task Task.something(...) """ # ================================================================================= # ATTRIBUTES # load_ and # validate_ # will be used if defined # might be possible to define others # NOTE: ONLY set defaults on task attributes that are not inheritable, # inheritance is only triggered if the 'current value' is None, # default can be set at play/top level object and inheritance will take it's course. _args = FieldAttribute(isa='dict', default=dict) _action = FieldAttribute(isa='string') _async_val = FieldAttribute(isa='int', default=0, alias='async') _changed_when = FieldAttribute(isa='list', default=list) _delay = FieldAttribute(isa='int', default=5) _delegate_to = FieldAttribute(isa='string') _delegate_facts = FieldAttribute(isa='bool') _failed_when = FieldAttribute(isa='list', default=list) _loop = FieldAttribute() _loop_control = FieldAttribute(isa='class', class_type=LoopControl, inherit=False) _notify = FieldAttribute(isa='list') _poll = FieldAttribute(isa='int', default=10) _register = FieldAttribute(isa='string', static=True) _retries = FieldAttribute(isa='int', default=3) _until = FieldAttribute(isa='list', default=list) # deprecated, used to be loop and loop_args but loop has been repurposed _loop_with = FieldAttribute(isa='string', private=True, inherit=False) def __init__(self, block=None, role=None, task_include=None): ''' constructors a task, without the Task.load classmethod, it will be pretty blank ''' self._role = role self._parent = None if task_include: self._parent = task_include else: self._parent = block super(Task, self).__init__() def get_path(self): ''' return the absolute path of the task with its line number ''' path = "" if hasattr(self, '_ds') and hasattr(self._ds, '_data_source') and hasattr(self._ds, '_line_number'): path = "%s:%s" % (self._ds._data_source, self._ds._line_number) elif hasattr(self._parent._play, '_ds') and hasattr(self._parent._play._ds, '_data_source') and hasattr(self._parent._play._ds, '_line_number'): path = "%s:%s" % (self._parent._play._ds._data_source, self._parent._play._ds._line_number) return path def get_name(self): ''' return the name of the task ''' if self._role and self.name and ("%s : " % self._role._role_name) not in self.name: return "%s : %s" % (self._role.get_name(), self.name) elif self.name: return self.name else: if self._role: return "%s : %s" % (self._role.get_name(), self.action) else: return "%s" % (self.action,) def _merge_kv(self, ds): if ds is None: return "" elif isinstance(ds, string_types): return ds elif isinstance(ds, dict): buf = "" for (k, v) in iteritems(ds): if k.startswith('_'): continue buf = buf + "%s=%s " % (k, v) buf = buf.strip() return buf @staticmethod def load(data, block=None, role=None, task_include=None, variable_manager=None, loader=None): t = Task(block=block, role=role, task_include=task_include) return t.load_data(data, variable_manager=variable_manager, loader=loader) def __repr__(self): ''' returns a human readable representation of the task ''' if self.get_name() == 'meta': return "TASK: meta (%s)" % self.args['_raw_params'] else: return "TASK: %s" % self.get_name() def _preprocess_with_loop(self, ds, new_ds, k, v): ''' take a lookup plugin name and store it correctly ''' loop_name = k.replace("with_", "") if new_ds.get('loop') is not None or new_ds.get('loop_with') is not None: raise AnsibleError("duplicate loop in task: %s" % loop_name, obj=ds) if v is None: raise AnsibleError("you must specify a value when using %s" % k, obj=ds) new_ds['loop_with'] = loop_name new_ds['loop'] = v # display.deprecated("with_ type loops are being phased out, use the 'loop' keyword instead", version="2.10") def preprocess_data(self, ds): ''' tasks are especially complex arguments so need pre-processing. keep it short. ''' if not isinstance(ds, dict): raise AnsibleAssertionError('ds (%s) should be a dict but was a %s' % (ds, type(ds))) # the new, cleaned datastructure, which will have legacy # items reduced to a standard structure suitable for the # attributes of the task class new_ds = AnsibleMapping() if isinstance(ds, AnsibleBaseYAMLObject): new_ds.ansible_pos = ds.ansible_pos # use the args parsing class to determine the action, args, # and the delegate_to value from the various possible forms # supported as legacy args_parser = ModuleArgsParser(task_ds=ds) try: (action, args, delegate_to) = args_parser.parse() except AnsibleParserError as e: # if the raises exception was created with obj=ds args, then it includes the detail # so we dont need to add it so we can just re raise. if e._obj: raise # But if it wasn't, we can add the yaml object now to get more detail raise AnsibleParserError(to_native(e), obj=ds, orig_exc=e) # the command/shell/script modules used to support the `cmd` arg, # which corresponds to what we now call _raw_params, so move that # value over to _raw_params (assuming it is empty) if action in ('command', 'shell', 'script'): if 'cmd' in args: if args.get('_raw_params', '') != '': raise AnsibleError("The 'cmd' argument cannot be used when other raw parameters are specified." " Please put everything in one or the other place.", obj=ds) args['_raw_params'] = args.pop('cmd') new_ds['action'] = action new_ds['args'] = args new_ds['delegate_to'] = delegate_to # we handle any 'vars' specified in the ds here, as we may # be adding things to them below (special handling for includes). # When that deprecated feature is removed, this can be too. if 'vars' in ds: # _load_vars is defined in Base, and is used to load a dictionary # or list of dictionaries in a standard way new_ds['vars'] = self._load_vars(None, ds.get('vars')) else: new_ds['vars'] = dict() for (k, v) in iteritems(ds): if k in ('action', 'local_action', 'args', 'delegate_to') or k == action or k == 'shell': # we don't want to re-assign these values, which were determined by the ModuleArgsParser() above continue elif k.startswith('with_') and k.replace("with_", "") in lookup_loader: # transform into loop property self._preprocess_with_loop(ds, new_ds, k, v) else: # pre-2.0 syntax allowed variables for include statements at the top level of the task, # so we move those into the 'vars' dictionary here, and show a deprecation message # as we will remove this at some point in the future. if action in ('include',) and k not in self._valid_attrs and k not in self.DEPRECATED_ATTRIBUTES: display.deprecated("Specifying include variables at the top-level of the task is deprecated." " Please see:\nhttps://docs.ansible.com/ansible/playbooks_roles.html#task-include-files-and-encouraging-reuse\n\n" " for currently supported syntax regarding included files and variables", version="2.12") new_ds['vars'][k] = v elif C.INVALID_TASK_ATTRIBUTE_FAILED or k in self._valid_attrs: new_ds[k] = v else: display.warning("Ignoring invalid attribute: %s" % k) return super(Task, self).preprocess_data(new_ds) def _load_loop_control(self, attr, ds): if not isinstance(ds, dict): raise AnsibleParserError( "the `loop_control` value must be specified as a dictionary and cannot " "be a variable itself (though it can contain variables)", obj=ds, ) return LoopControl.load(data=ds, variable_manager=self._variable_manager, loader=self._loader) def _validate_attributes(self, ds): try: super(Task, self)._validate_attributes(ds) except AnsibleParserError as e: e.message += '\nThis error can be suppressed as a warning using the "invalid_task_attribute_failed" configuration' raise e def post_validate(self, templar): ''' Override of base class post_validate, to also do final validation on the block and task include (if any) to which this task belongs. ''' if self._parent: self._parent.post_validate(templar) super(Task, self).post_validate(templar) def _post_validate_loop(self, attr, value, templar): ''' Override post validation for the loop field, which is templated specially in the TaskExecutor class when evaluating loops. ''' return value def _post_validate_environment(self, attr, value, templar): ''' Override post validation of vars on the play, as we don't want to template these too early. ''' env = {} if value is not None: def _parse_env_kv(k, v): try: env[k] = templar.template(v, convert_bare=False) except AnsibleUndefinedVariable as e: error = to_native(e) if self.action in ('setup', 'gather_facts') and 'ansible_facts.env' in error or 'ansible_env' in error: # ignore as fact gathering is required for 'env' facts return raise if isinstance(value, list): for env_item in value: if isinstance(env_item, dict): for k in env_item: _parse_env_kv(k, env_item[k]) else: isdict = templar.template(env_item, convert_bare=False) if isinstance(isdict, dict): env.update(isdict) else: display.warning("could not parse environment value, skipping: %s" % value) elif isinstance(value, dict): # should not really happen env = dict() for env_item in value: _parse_env_kv(env_item, value[env_item]) else: # at this point it should be a simple string, also should not happen env = templar.template(value, convert_bare=False) return env def _post_validate_changed_when(self, attr, value, templar): ''' changed_when is evaluated after the execution of the task is complete, and should not be templated during the regular post_validate step. ''' return value def _post_validate_failed_when(self, attr, value, templar): ''' failed_when is evaluated after the execution of the task is complete, and should not be templated during the regular post_validate step. ''' return value def _post_validate_until(self, attr, value, templar): ''' until is evaluated after the execution of the task is complete, and should not be templated during the regular post_validate step. ''' return value def get_vars(self): all_vars = dict() if self._parent: all_vars.update(self._parent.get_vars()) all_vars.update(self.vars) if 'tags' in all_vars: del all_vars['tags'] if 'when' in all_vars: del all_vars['when'] return all_vars def get_include_params(self): all_vars = dict() if self._parent: all_vars.update(self._parent.get_include_params()) if self.action in ('include', 'include_tasks', 'include_role'): all_vars.update(self.vars) return all_vars def copy(self, exclude_parent=False, exclude_tasks=False): new_me = super(Task, self).copy() new_me._parent = None if self._parent and not exclude_parent: new_me._parent = self._parent.copy(exclude_tasks=exclude_tasks) new_me._role = None if self._role: new_me._role = self._role return new_me def serialize(self): data = super(Task, self).serialize() if not self._squashed and not self._finalized: if self._parent: data['parent'] = self._parent.serialize() data['parent_type'] = self._parent.__class__.__name__ if self._role: data['role'] = self._role.serialize() return data def deserialize(self, data): # import is here to avoid import loops from ansible.playbook.task_include import TaskInclude from ansible.playbook.handler_task_include import HandlerTaskInclude parent_data = data.get('parent', None) if parent_data: parent_type = data.get('parent_type') if parent_type == 'Block': p = Block() elif parent_type == 'TaskInclude': p = TaskInclude() elif parent_type == 'HandlerTaskInclude': p = HandlerTaskInclude() p.deserialize(parent_data) self._parent = p del data['parent'] role_data = data.get('role') if role_data: r = Role() r.deserialize(role_data) self._role = r del data['role'] super(Task, self).deserialize(data) def set_loader(self, loader): ''' Sets the loader on this object and recursively on parent, child objects. This is used primarily after the Task has been serialized/deserialized, which does not preserve the loader. ''' self._loader = loader if self._parent: self._parent.set_loader(loader) def _get_parent_attribute(self, attr, extend=False, prepend=False): ''' Generic logic to get the attribute or parent attribute for a task value. ''' extend = self._valid_attrs[attr].extend prepend = self._valid_attrs[attr].prepend try: value = self._attributes[attr] # If parent is static, we can grab attrs from the parent # otherwise, defer to the grandparent if getattr(self._parent, 'statically_loaded', True): _parent = self._parent else: _parent = self._parent._parent if _parent and (value is Sentinel or extend): if getattr(_parent, 'statically_loaded', True): # vars are always inheritable, other attributes might not be for the parent but still should be for other ancestors if attr != 'vars' and hasattr(_parent, '_get_parent_attribute'): parent_value = _parent._get_parent_attribute(attr) else: parent_value = _parent._attributes.get(attr, Sentinel) if extend: value = self._extend_value(value, parent_value, prepend) else: value = parent_value except KeyError: pass return value def get_dep_chain(self): if self._parent: return self._parent.get_dep_chain() else: return None def get_search_path(self): ''' Return the list of paths you should search for files, in order. This follows role/playbook dependency chain. ''' path_stack = [] dep_chain = self.get_dep_chain() # inside role: add the dependency chain from current to dependent if dep_chain: path_stack.extend(reversed([x._role_path for x in dep_chain])) # add path of task itself, unless it is already in the list task_dir = os.path.dirname(self.get_path()) if task_dir not in path_stack: path_stack.append(task_dir) return path_stack def all_parents_static(self): if self._parent: return self._parent.all_parents_static() return True def get_first_parent_include(self): from ansible.playbook.task_include import TaskInclude if self._parent: if isinstance(self._parent, TaskInclude): return self._parent return self._parent.get_first_parent_include() return None