| Server IP : 85.214.239.14 / Your IP : 3.138.134.77 Web Server : Apache/2.4.62 (Debian) System : Linux h2886529.stratoserver.net 4.9.0 #1 SMP Tue Jan 9 19:45:01 MSK 2024 x86_64 User : www-data ( 33) PHP Version : 7.4.18 Disable Function : pcntl_alarm,pcntl_fork,pcntl_waitpid,pcntl_wait,pcntl_wifexited,pcntl_wifstopped,pcntl_wifsignaled,pcntl_wifcontinued,pcntl_wexitstatus,pcntl_wtermsig,pcntl_wstopsig,pcntl_signal,pcntl_signal_get_handler,pcntl_signal_dispatch,pcntl_get_last_error,pcntl_strerror,pcntl_sigprocmask,pcntl_sigwaitinfo,pcntl_sigtimedwait,pcntl_exec,pcntl_getpriority,pcntl_setpriority,pcntl_async_signals,pcntl_unshare, MySQL : OFF | cURL : OFF | WGET : ON | Perl : ON | Python : ON | Sudo : ON | Pkexec : OFF Directory : /proc/2/root/proc/3/root/proc/3/cwd/lib/python3/dist-packages/ansible/parsing/ |
Upload File : |
# (c) 2014 Michael DeHaan, <michael@ansible.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/>.
# Make coding more python3-ish
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
import ansible.constants as C
from ansible.errors import AnsibleParserError, AnsibleError, AnsibleAssertionError
from ansible.module_utils.six import string_types
from ansible.module_utils._text import to_text
from ansible.parsing.splitter import parse_kv, split_args
from ansible.plugins.loader import module_loader, action_loader
from ansible.template import Templar
from ansible.utils.fqcn import add_internal_fqcns
from ansible.utils.sentinel import Sentinel
# For filtering out modules correctly below
FREEFORM_ACTIONS = frozenset(C.MODULE_REQUIRE_ARGS)
RAW_PARAM_MODULES = FREEFORM_ACTIONS.union(add_internal_fqcns((
'include',
'include_vars',
'include_tasks',
'include_role',
'import_tasks',
'import_role',
'add_host',
'group_by',
'set_fact',
'meta',
)))
BUILTIN_TASKS = frozenset(add_internal_fqcns((
'meta',
'include',
'include_tasks',
'include_role',
'import_tasks',
'import_role'
)))
class ModuleArgsParser:
"""
There are several ways a module and argument set can be expressed:
# legacy form (for a shell command)
- action: shell echo hi
# common shorthand for local actions vs delegate_to
- local_action: shell echo hi
# most commonly:
- copy: src=a dest=b
# legacy form
- action: copy src=a dest=b
# complex args form, for passing structured data
- copy:
src: a
dest: b
# gross, but technically legal
- action:
module: copy
args:
src: a
dest: b
# Standard YAML form for command-type modules. In this case, the args specified
# will act as 'defaults' and will be overridden by any args specified
# in one of the other formats (complex args under the action, or
# parsed from the k=v string
- command: 'pwd'
args:
chdir: '/tmp'
This class has some of the logic to canonicalize these into the form
- module: <module_name>
delegate_to: <optional>
args: <args>
Args may also be munged for certain shell command parameters.
"""
def __init__(self, task_ds=None, collection_list=None):
task_ds = {} if task_ds is None else task_ds
if not isinstance(task_ds, dict):
raise AnsibleAssertionError("the type of 'task_ds' should be a dict, but is a %s" % type(task_ds))
self._task_ds = task_ds
self._collection_list = collection_list
# delayed local imports to prevent circular import
from ansible.playbook.task import Task
from ansible.playbook.handler import Handler
# store the valid Task/Handler attrs for quick access
self._task_attrs = set(Task.fattributes)
self._task_attrs.update(set(Handler.fattributes))
# HACK: why are these not FieldAttributes on task with a post-validate to check usage?
self._task_attrs.update(['local_action', 'static'])
self._task_attrs = frozenset(self._task_attrs)
self.resolved_action = None
def _split_module_string(self, module_string):
'''
when module names are expressed like:
action: copy src=a dest=b
the first part of the string is the name of the module
and the rest are strings pertaining to the arguments.
'''
tokens = split_args(module_string)
if len(tokens) > 1:
return (tokens[0].strip(), " ".join(tokens[1:]))
else:
return (tokens[0].strip(), "")
def _normalize_parameters(self, thing, action=None, additional_args=None):
'''
arguments can be fuzzy. Deal with all the forms.
'''
additional_args = {} if additional_args is None else additional_args
# final args are the ones we'll eventually return, so first update
# them with any additional args specified, which have lower priority
# than those which may be parsed/normalized next
final_args = dict()
if additional_args:
if isinstance(additional_args, string_types):
templar = Templar(loader=None)
if templar.is_template(additional_args):
final_args['_variable_params'] = additional_args
else:
raise AnsibleParserError("Complex args containing variables cannot use bare variables (without Jinja2 delimiters), "
"and must use the full variable style ('{{var_name}}')")
elif isinstance(additional_args, dict):
final_args.update(additional_args)
else:
raise AnsibleParserError('Complex args must be a dictionary or variable string ("{{var}}").')
# how we normalize depends if we figured out what the module name is
# yet. If we have already figured it out, it's a 'new style' invocation.
# otherwise, it's not
if action is not None:
args = self._normalize_new_style_args(thing, action)
else:
(action, args) = self._normalize_old_style_args(thing)
# this can occasionally happen, simplify
if args and 'args' in args:
tmp_args = args.pop('args')
if isinstance(tmp_args, string_types):
tmp_args = parse_kv(tmp_args)
args.update(tmp_args)
# only internal variables can start with an underscore, so
# we don't allow users to set them directly in arguments
if args and action not in FREEFORM_ACTIONS:
for arg in args:
arg = to_text(arg)
if arg.startswith('_ansible_'):
raise AnsibleError("invalid parameter specified for action '%s': '%s'" % (action, arg))
# finally, update the args we're going to return with the ones
# which were normalized above
if args:
final_args.update(args)
return (action, final_args)
def _normalize_new_style_args(self, thing, action):
'''
deals with fuzziness in new style module invocations
accepting key=value pairs and dictionaries, and returns
a dictionary of arguments
possible example inputs:
'echo hi', 'shell'
{'region': 'xyz'}, 'ec2'
standardized outputs like:
{ _raw_params: 'echo hi', _uses_shell: True }
'''
if isinstance(thing, dict):
# form is like: { xyz: { x: 2, y: 3 } }
args = thing
elif isinstance(thing, string_types):
# form is like: copy: src=a dest=b
check_raw = action in FREEFORM_ACTIONS
args = parse_kv(thing, check_raw=check_raw)
elif thing is None:
# this can happen with modules which take no params, like ping:
args = None
else:
raise AnsibleParserError("unexpected parameter type in action: %s" % type(thing), obj=self._task_ds)
return args
def _normalize_old_style_args(self, thing):
'''
deals with fuzziness in old-style (action/local_action) module invocations
returns tuple of (module_name, dictionary_args)
possible example inputs:
{ 'shell' : 'echo hi' }
'shell echo hi'
{'module': 'ec2', 'x': 1 }
standardized outputs like:
('ec2', { 'x': 1} )
'''
action = None
args = None
if isinstance(thing, dict):
# form is like: action: { module: 'copy', src: 'a', dest: 'b' }
thing = thing.copy()
if 'module' in thing:
action, module_args = self._split_module_string(thing['module'])
args = thing.copy()
check_raw = action in FREEFORM_ACTIONS
args.update(parse_kv(module_args, check_raw=check_raw))
del args['module']
elif isinstance(thing, string_types):
# form is like: action: copy src=a dest=b
(action, args) = self._split_module_string(thing)
check_raw = action in FREEFORM_ACTIONS
args = parse_kv(args, check_raw=check_raw)
else:
# need a dict or a string, so giving up
raise AnsibleParserError("unexpected parameter type in action: %s" % type(thing), obj=self._task_ds)
return (action, args)
def parse(self, skip_action_validation=False):
'''
Given a task in one of the supported forms, parses and returns
returns the action, arguments, and delegate_to values for the
task, dealing with all sorts of levels of fuzziness.
'''
thing = None
action = None
delegate_to = self._task_ds.get('delegate_to', Sentinel)
args = dict()
# This is the standard YAML form for command-type modules. We grab
# the args and pass them in as additional arguments, which can/will
# be overwritten via dict updates from the other arg sources below
additional_args = self._task_ds.get('args', dict())
# We can have one of action, local_action, or module specified
# action
if 'action' in self._task_ds:
# an old school 'action' statement
thing = self._task_ds['action']
action, args = self._normalize_parameters(thing, action=action, additional_args=additional_args)
# local_action
if 'local_action' in self._task_ds:
# local_action is similar but also implies a delegate_to
if action is not None:
raise AnsibleParserError("action and local_action are mutually exclusive", obj=self._task_ds)
thing = self._task_ds.get('local_action', '')
delegate_to = 'localhost'
action, args = self._normalize_parameters(thing, action=action, additional_args=additional_args)
# module: <stuff> is the more new-style invocation
# filter out task attributes so we're only querying unrecognized keys as actions/modules
non_task_ds = dict((k, v) for k, v in self._task_ds.items() if (k not in self._task_attrs) and (not k.startswith('with_')))
# walk the filtered input dictionary to see if we recognize a module name
for item, value in non_task_ds.items():
context = None
is_action_candidate = False
if item in BUILTIN_TASKS:
is_action_candidate = True
elif skip_action_validation:
is_action_candidate = True
else:
context = action_loader.find_plugin_with_context(item, collection_list=self._collection_list)
if not context.resolved:
context = module_loader.find_plugin_with_context(item, collection_list=self._collection_list)
is_action_candidate = context.resolved and bool(context.redirect_list)
if is_action_candidate:
# finding more than one module name is a problem
if action is not None:
raise AnsibleParserError("conflicting action statements: %s, %s" % (action, item), obj=self._task_ds)
if context is not None and context.resolved:
self.resolved_action = context.resolved_fqcn
action = item
thing = value
action, args = self._normalize_parameters(thing, action=action, additional_args=additional_args)
# if we didn't see any module in the task at all, it's not a task really
if action is None:
if non_task_ds: # there was one non-task action, but we couldn't find it
bad_action = list(non_task_ds.keys())[0]
raise AnsibleParserError("couldn't resolve module/action '{0}'. This often indicates a "
"misspelling, missing collection, or incorrect module path.".format(bad_action),
obj=self._task_ds)
else:
raise AnsibleParserError("no module/action detected in task.",
obj=self._task_ds)
elif args.get('_raw_params', '') != '' and action not in RAW_PARAM_MODULES:
templar = Templar(loader=None)
raw_params = args.pop('_raw_params')
if templar.is_template(raw_params):
args['_variable_params'] = raw_params
else:
raise AnsibleParserError("this task '%s' has extra params, which is only allowed in the following modules: %s" % (action,
", ".join(RAW_PARAM_MODULES)),
obj=self._task_ds)
return (action, args, delegate_to)