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|
# (c) 2012-2014, Michael DeHaan <michael.dehaan@gmail.com>
#
# 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 <http://www.gnu.org/licenses/>.
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
import os
from ansible import constants as C
from ansible.errors import AnsibleParserError, AnsibleUndefinedVariable, AnsibleAssertionError
from ansible.module_utils.common.text.converters import to_native
from ansible.parsing.mod_args import ModuleArgsParser
from ansible.utils.display import Display
display = Display()
def load_list_of_blocks(ds, play, parent_block=None, role=None, task_include=None, use_handlers=False, variable_manager=None, loader=None):
'''
Given a list of mixed task/block data (parsed from YAML),
return a list of Block() objects, where implicit blocks
are created for each bare Task.
'''
# we import here to prevent a circular dependency with imports
from ansible.playbook.block import Block
if not isinstance(ds, (list, type(None))):
raise AnsibleAssertionError('%s should be a list or None but is %s' % (ds, type(ds)))
block_list = []
if ds:
count = iter(range(len(ds)))
for i in count:
block_ds = ds[i]
# Implicit blocks are created by bare tasks listed in a play without
# an explicit block statement. If we have two implicit blocks in a row,
# squash them down to a single block to save processing time later.
implicit_blocks = []
while block_ds is not None and not Block.is_block(block_ds):
implicit_blocks.append(block_ds)
i += 1
# Advance the iterator, so we don't repeat
next(count, None)
try:
block_ds = ds[i]
except IndexError:
block_ds = None
# Loop both implicit blocks and block_ds as block_ds is the next in the list
for b in (implicit_blocks, block_ds):
if b:
block_list.append(
Block.load(
b,
play=play,
parent_block=parent_block,
role=role,
task_include=task_include,
use_handlers=use_handlers,
variable_manager=variable_manager,
loader=loader,
)
)
return block_list
def load_list_of_tasks(ds, play, block=None, role=None, task_include=None, use_handlers=False, variable_manager=None, loader=None):
'''
Given a list of task datastructures (parsed from YAML),
return a list of Task() or TaskInclude() objects.
'''
# we import here to prevent a circular dependency with imports
from ansible.playbook.block import Block
from ansible.playbook.handler import Handler
from ansible.playbook.task import Task
from ansible.playbook.task_include import TaskInclude
from ansible.playbook.role_include import IncludeRole
from ansible.playbook.handler_task_include import HandlerTaskInclude
from ansible.template import Templar
from ansible.utils.plugin_docs import get_versioned_doclink
if not isinstance(ds, list):
raise AnsibleAssertionError('The ds (%s) should be a list but was a %s' % (ds, type(ds)))
task_list = []
for task_ds in ds:
if not isinstance(task_ds, dict):
raise AnsibleAssertionError('The ds (%s) should be a dict but was a %s' % (ds, type(ds)))
if 'block' in task_ds:
if use_handlers:
raise AnsibleParserError("Using a block as a handler is not supported.", obj=task_ds)
t = Block.load(
task_ds,
play=play,
parent_block=block,
role=role,
task_include=task_include,
use_handlers=use_handlers,
variable_manager=variable_manager,
loader=loader,
)
task_list.append(t)
else:
args_parser = ModuleArgsParser(task_ds)
try:
(action, args, delegate_to) = args_parser.parse(skip_action_validation=True)
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=task_ds, orig_exc=e)
if action in C._ACTION_ALL_INCLUDE_IMPORT_TASKS:
if use_handlers:
include_class = HandlerTaskInclude
else:
include_class = TaskInclude
t = include_class.load(
task_ds,
block=block,
role=role,
task_include=None,
variable_manager=variable_manager,
loader=loader
)
all_vars = variable_manager.get_vars(play=play, task=t)
templar = Templar(loader=loader, variables=all_vars)
# check to see if this include is dynamic or static:
if action in C._ACTION_IMPORT_TASKS:
if t.loop is not None:
raise AnsibleParserError("You cannot use loops on 'import_tasks' statements. You should use 'include_tasks' instead.", obj=task_ds)
# we set a flag to indicate this include was static
t.statically_loaded = True
# handle relative includes by walking up the list of parent include
# tasks and checking the relative result to see if it exists
parent_include = block
cumulative_path = None
found = False
subdir = 'tasks'
if use_handlers:
subdir = 'handlers'
while parent_include is not None:
if not isinstance(parent_include, TaskInclude):
parent_include = parent_include._parent
continue
try:
parent_include_dir = os.path.dirname(templar.template(parent_include.args.get('_raw_params')))
except AnsibleUndefinedVariable as e:
if not parent_include.statically_loaded:
raise AnsibleParserError(
"Error when evaluating variable in dynamic parent include path: %s. "
"When using static imports, the parent dynamic include cannot utilize host facts "
"or variables from inventory" % parent_include.args.get('_raw_params'),
obj=task_ds,
suppress_extended_error=True,
orig_exc=e
)
raise
if cumulative_path is None:
cumulative_path = parent_include_dir
elif not os.path.isabs(cumulative_path):
cumulative_path = os.path.join(parent_include_dir, cumulative_path)
include_target = templar.template(t.args['_raw_params'])
if t._role:
new_basedir = os.path.join(t._role._role_path, subdir, cumulative_path)
include_file = loader.path_dwim_relative(new_basedir, subdir, include_target)
else:
include_file = loader.path_dwim_relative(loader.get_basedir(), cumulative_path, include_target)
if os.path.exists(include_file):
found = True
break
else:
parent_include = parent_include._parent
if not found:
try:
include_target = templar.template(t.args['_raw_params'])
except AnsibleUndefinedVariable as e:
raise AnsibleParserError(
"Error when evaluating variable in import path: %s.\n\n"
"When using static imports, ensure that any variables used in their names are defined in vars/vars_files\n"
"or extra-vars passed in from the command line. Static imports cannot use variables from facts or inventory\n"
"sources like group or host vars." % t.args['_raw_params'],
obj=task_ds,
suppress_extended_error=True,
orig_exc=e)
if t._role:
include_file = loader.path_dwim_relative(t._role._role_path, subdir, include_target)
else:
include_file = loader.path_dwim(include_target)
data = loader.load_from_file(include_file)
if not data:
display.warning('file %s is empty and had no tasks to include' % include_file)
continue
elif not isinstance(data, list):
raise AnsibleParserError("included task files must contain a list of tasks", obj=data)
# since we can't send callbacks here, we display a message directly in
# the same fashion used by the on_include callback. We also do it here,
# because the recursive nature of helper methods means we may be loading
# nested includes, and we want the include order printed correctly
display.vv("statically imported: %s" % include_file)
ti_copy = t.copy(exclude_parent=True)
ti_copy._parent = block
included_blocks = load_list_of_blocks(
data,
play=play,
parent_block=None,
task_include=ti_copy,
role=role,
use_handlers=use_handlers,
loader=loader,
variable_manager=variable_manager,
)
tags = ti_copy.tags[:]
# now we extend the tags on each of the included blocks
for b in included_blocks:
b.tags = list(set(b.tags).union(tags))
# END FIXME
# FIXME: handlers shouldn't need this special handling, but do
# right now because they don't iterate blocks correctly
if use_handlers:
for b in included_blocks:
task_list.extend(b.block)
else:
task_list.extend(included_blocks)
else:
t.is_static = False
task_list.append(t)
elif action in C._ACTION_ALL_PROPER_INCLUDE_IMPORT_ROLES:
if use_handlers:
raise AnsibleParserError(f"Using '{action}' as a handler is not supported.", obj=task_ds)
ir = IncludeRole.load(
task_ds,
block=block,
role=role,
task_include=None,
variable_manager=variable_manager,
loader=loader,
)
if action in C._ACTION_IMPORT_ROLE:
if ir.loop is not None:
raise AnsibleParserError("You cannot use loops on 'import_role' statements. You should use 'include_role' instead.", obj=task_ds)
# we set a flag to indicate this include was static
ir.statically_loaded = True
# template the role name now, if needed
all_vars = variable_manager.get_vars(play=play, task=ir)
templar = Templar(loader=loader, variables=all_vars)
ir.post_validate(templar=templar)
ir._role_name = templar.template(ir._role_name)
# uses compiled list from object
blocks, dummy = ir.get_block_list(variable_manager=variable_manager, loader=loader)
task_list.extend(blocks)
else:
# passes task object itself for latter generation of list
task_list.append(ir)
else:
if use_handlers:
t = Handler.load(task_ds, block=block, role=role, task_include=task_include, variable_manager=variable_manager, loader=loader)
else:
t = Task.load(task_ds, block=block, role=role, task_include=task_include, variable_manager=variable_manager, loader=loader)
task_list.append(t)
return task_list
def load_list_of_roles(ds, play, current_role_path=None, variable_manager=None, loader=None, collection_search_list=None):
"""
Loads and returns a list of RoleInclude objects from the ds list of role definitions
:param ds: list of roles to load
:param play: calling Play object
:param current_role_path: path of the owning role, if any
:param variable_manager: varmgr to use for templating
:param loader: loader to use for DS parsing/services
:param collection_search_list: list of collections to search for unqualified role names
:return:
"""
# we import here to prevent a circular dependency with imports
from ansible.playbook.role.include import RoleInclude
if not isinstance(ds, list):
raise AnsibleAssertionError('ds (%s) should be a list but was a %s' % (ds, type(ds)))
roles = []
for role_def in ds:
i = RoleInclude.load(role_def, play=play, current_role_path=current_role_path, variable_manager=variable_manager,
loader=loader, collection_list=collection_search_list)
roles.append(i)
return roles
|
