# (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 from ansible.errors import AnsibleError from ansible.parsing.mod_args import ModuleArgsParser from ansible.parsing.splitter import parse_kv from ansible.parsing.yaml.objects import AnsibleBaseYAMLObject, AnsibleMapping from ansible.plugins import module_loader, lookup_loader from ansible.playbook.attribute import Attribute, 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.role import Role from ansible.playbook.taggable import Taggable __all__ = ['Task'] 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 _args = FieldAttribute(isa='dict', default=dict()) _action = FieldAttribute(isa='string') _always_run = FieldAttribute(isa='bool') _any_errors_fatal = FieldAttribute(isa='bool') _async = FieldAttribute(isa='int', default=0) _changed_when = FieldAttribute(isa='string') _connection = FieldAttribute(isa='string') _delay = FieldAttribute(isa='int', default=5) _delegate_to = FieldAttribute(isa='string') _environment = FieldAttribute(isa='dict') _failed_when = FieldAttribute(isa='string') _first_available_file = FieldAttribute(isa='list') _ignore_errors = FieldAttribute(isa='bool') _loop = FieldAttribute(isa='string', private=True) _loop_args = FieldAttribute(isa='list', private=True) _local_action = FieldAttribute(isa='string') # FIXME: this should not be a Task _meta = FieldAttribute(isa='string') _name = FieldAttribute(isa='string', default='') _no_log = FieldAttribute(isa='bool') _notify = FieldAttribute(isa='list') _poll = FieldAttribute(isa='int') _register = FieldAttribute(isa='string') _remote_user = FieldAttribute(isa='string') _retries = FieldAttribute(isa='int', default=1) _run_once = FieldAttribute(isa='bool') _transport = FieldAttribute(isa='string') _until = FieldAttribute(isa='list') # ? _vars = FieldAttribute(isa='dict', default=dict()) def __init__(self, block=None, role=None, task_include=None): ''' constructors a task, without the Task.load classmethod, it will be pretty blank ''' self._block = block self._role = role self._task_include = task_include super(Task, self).__init__() def get_name(self): ''' return the name of the task ''' if self._role and self.name: return "%s : %s" % (self._role.get_name(), self.name) elif self.name: return self.name else: flattened_args = self._merge_kv(self.args) if self._role: return "%s : %s %s" % (self._role.get_name(), self.action, flattened_args) else: return "%s %s" % (self.action, flattened_args) def _merge_kv(self, ds): if ds is None: return "" elif isinstance(ds, basestring): return ds elif isinstance(ds, dict): buf = "" for (k,v) in ds.iteritems(): 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 ''' return "TASK: %s" % self.get_name() def _preprocess_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: raise AnsibleError("duplicate loop in task: %s" % loop_name) new_ds['loop'] = loop_name new_ds['loop_args'] = v def preprocess_data(self, ds): ''' tasks are especially complex arguments so need pre-processing. keep it short. ''' assert isinstance(ds, dict) # 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) (action, args, delegate_to) = args_parser.parse() new_ds['action'] = action new_ds['args'] = args new_ds['delegate_to'] = delegate_to for (k,v) in ds.iteritems(): 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.replace("with_", "") in lookup_loader: self._preprocess_loop(ds, new_ds, k, v) else: new_ds[k] = v return super(Task, self).preprocess_data(new_ds) def post_validate(self, all_vars=dict(), fail_on_undefined=True): ''' 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._block: self._block.post_validate(all_vars=all_vars, fail_on_undefined=fail_on_undefined) if self._task_include: self._task_include.post_validate(all_vars=all_vars, fail_on_undefined=fail_on_undefined) super(Task, self).post_validate(all_vars=all_vars, fail_on_undefined=fail_on_undefined) def get_vars(self): all_vars = self.vars.copy() if self._block: all_vars.update(self._block.get_vars()) if self._task_include: all_vars.update(self._task_include.get_vars()) all_vars.update(self.serialize()) if 'tags' in all_vars: del all_vars['tags'] if 'when' in all_vars: del all_vars['when'] return all_vars # no longer used, as blocks are the lowest level of compilation now #def compile(self): # ''' # For tasks, this is just a dummy method returning an array # with 'self' in it, so we don't have to care about task types # further up the chain. # ''' # # return [self] def copy(self, exclude_block=False): new_me = super(Task, self).copy() new_me._block = None if self._block and not exclude_block: new_me._block = self._block.copy() new_me._role = None if self._role: new_me._role = self._role new_me._task_include = None if self._task_include: new_me._task_include = self._task_include.copy() return new_me def serialize(self): data = super(Task, self).serialize() if self._block: data['block'] = self._block.serialize() if self._role: data['role'] = self._role.serialize() if self._task_include: data['task_include'] = self._task_include.serialize() return data def deserialize(self, data): # import is here to avoid import loops #from ansible.playbook.task_include import TaskInclude block_data = data.get('block') if block_data: b = Block() b.deserialize(block_data) self._block = b del data['block'] role_data = data.get('role') if role_data: r = Role() r.deserialize(role_data) self._role = r del data['role'] ti_data = data.get('task_include') if ti_data: #ti = TaskInclude() ti = Task() ti.deserialize(ti_data) self._task_include = ti del data['task_include'] super(Task, self).deserialize(data) def evaluate_conditional(self, all_vars): if self._block is not None: if not self._block.evaluate_conditional(all_vars): return False if self._task_include is not None: if not self._task_include.evaluate_conditional(all_vars): return False return super(Task, self).evaluate_conditional(all_vars) def evaluate_tags(self, only_tags, skip_tags, all_vars): result = False if self._block is not None: result |= self._block.evaluate_tags(only_tags=only_tags, skip_tags=skip_tags, all_vars=all_vars) return result | super(Task, self).evaluate_tags(only_tags=only_tags, skip_tags=skip_tags, all_vars=all_vars) 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._block: self._block.set_loader(loader) if self._task_include: self._task_include.set_loader(loader) def _get_parent_attribute(self, attr): ''' Generic logic to get the attribute or parent attribute for a task value. ''' value = self._attributes[attr] if not value and self._block: value = getattr(self._block, attr) return value