# -*- coding: utf-8 -*- # Copyright: (c) 2018, Ansible Project # Simplified BSD License (see licenses/simplified_bsd.txt or https://opensource.org/licenses/BSD-2-Clause) from __future__ import absolute_import, division, print_function __metaclass__ = type from functools import partial, wraps import traceback from ansible.module_utils.basic import AnsibleModule class ArgFormat(object): """ Argument formatter """ BOOLEAN = 0 PRINTF = 1 FORMAT = 2 @staticmethod def stars_deco(num): if num == 1: def deco(f): return lambda v: f(*v) return deco elif num == 2: def deco(f): return lambda v: f(**v) return deco return lambda f: f def __init__(self, name, fmt=None, style=FORMAT, stars=0): """ Creates a new formatter :param name: Name of the argument to be formatted :param fmt: Either a str to be formatted (using or not printf-style) or a callable that does that :param style: Whether arg_format (as str) should use printf-style formatting. Ignored if arg_format is None or not a str (should be callable). :param stars: A int with 0, 1 or 2 value, indicating to formatting the value as: value, *value or **value """ def printf_fmt(_fmt, v): try: return [_fmt % v] except TypeError as e: if e.args[0] != 'not all arguments converted during string formatting': raise return [_fmt] _fmts = { ArgFormat.BOOLEAN: lambda _fmt, v: ([_fmt] if bool(v) else []), ArgFormat.PRINTF: printf_fmt, ArgFormat.FORMAT: lambda _fmt, v: [_fmt.format(v)], } self.name = name self.stars = stars if fmt is None: fmt = "{0}" style = ArgFormat.FORMAT if isinstance(fmt, str): func = _fmts[style] self.arg_format = partial(func, fmt) elif isinstance(fmt, list) or isinstance(fmt, tuple): self.arg_format = lambda v: [_fmts[style](f, v)[0] for f in fmt] elif hasattr(fmt, '__call__'): self.arg_format = fmt else: raise TypeError('Parameter fmt must be either: a string, a list/tuple of ' 'strings or a function: type={0}, value={1}'.format(type(fmt), fmt)) if stars: self.arg_format = (self.stars_deco(stars))(self.arg_format) def to_text(self, value): func = self.arg_format return [str(p) for p in func(value)] def cause_changes(func, on_success=True, on_failure=False): @wraps(func) def wrapper(self, *args, **kwargs): try: func(*args, **kwargs) if on_success: self.changed = True except Exception as e: if on_failure: self.changed = True raise return wrapper def module_fails_on_exception(func): @wraps(func) def wrapper(self, *args, **kwargs): try: func(self, *args, **kwargs) except SystemExit: raise except Exception as e: self.vars.msg = "Module failed with exception: {0}".format(str(e).strip()) self.vars.exception = traceback.format_exc() self.module.fail_json(changed=False, msg=self.vars.msg, exception=self.vars.exception, output=self.output, vars=self.vars) return wrapper class DependencyCtxMgr(object): def __init__(self, name, msg=None): self.name = name self.msg = msg self.has_it = False self.exc_type = None self.exc_val = None self.exc_tb = None def __enter__(self): pass def __exit__(self, exc_type, exc_val, exc_tb): self.has_it = exc_type is None self.exc_type = exc_type self.exc_val = exc_val self.exc_tb = exc_tb return not self.has_it @property def text(self): return self.msg or str(self.exc_val) class ModuleHelper(object): _dependencies = [] module = {} facts_name = None class AttrDict(dict): def __getattr__(self, item): return self[item] def __init__(self, module=None): self.vars = ModuleHelper.AttrDict() self.output_dict = dict() self.facts_dict = dict() self._changed = False if module: self.module = module if not isinstance(module, AnsibleModule): self.module = AnsibleModule(**self.module) def update_output(self, **kwargs): if kwargs: self.output_dict.update(kwargs) def update_facts(self, **kwargs): if kwargs: self.facts_dict.update(kwargs) def __init_module__(self): pass def __run__(self): raise NotImplementedError() @property def changed(self): return self._changed @changed.setter def changed(self, value): self._changed = value @property def output(self): result = dict(self.vars) result.update(self.output_dict) if self.facts_name: result['ansible_facts'] = {self.facts_name: self.facts_dict} return result @module_fails_on_exception def run(self): self.fail_on_missing_deps() self.__init_module__() self.__run__() self.module.exit_json(changed=self.changed, **self.output_dict) @classmethod def dependency(cls, name, msg): cls._dependencies.append(DependencyCtxMgr(name, msg)) return cls._dependencies[-1] def fail_on_missing_deps(self): for d in self._dependencies: if not d.has_it: self.module.fail_json(changed=False, exception=d.exc_val.__traceback__.format_exc(), msg=d.text, **self.output_dict) class StateMixin(object): state_param = 'state' default_state = None def _state(self): state = self.module.params.get(self.state_param) return self.default_state if state is None else state def __run__(self): state = self._state() self.vars.state = state # resolve aliases if state not in self.module.params: aliased = [name for name, param in self.module.argument_spec.items() if state in param.get('aliases', [])] if aliased: state = aliased[0] self.vars.effective_state = state method = "state_{0}".format(state) if not hasattr(self, method): return self.__state_fallback__() func = getattr(self, method) return func() def __state_fallback__(self): raise ValueError("Cannot find method for state: {0}".format(self._state())) class CmdMixin(object): """ Mixin for mapping module options to running a CLI command with its arguments. """ command = None command_args_formats = dict() check_rc = False force_lang = "C" @property def module_formats(self): result = {} for param in self.module.params.keys(): result[param] = ArgFormat(param) return result @property def custom_formats(self): result = {} for param, fmt_spec in self.command_args_formats.items(): result[param] = ArgFormat(param, **fmt_spec) return result def _calculate_args(self, extra_params=None, params=None): def add_arg_formatted_param(_cmd_args, arg_format, _value): args = list(arg_format.to_text(_value)) return _cmd_args + args def find_format(_param): return self.custom_formats.get(_param, self.module_formats.get(_param)) extra_params = extra_params or dict() cmd_args = [self.module.get_bin_path(self.command)] param_list = params if params else self.module.params.keys() for param in param_list: if param in self.module.argument_spec: if param not in self.module.params: continue fmt = find_format(param) value = self.module.params[param] else: if param not in extra_params: continue fmt = find_format(param) value = extra_params[param] self.cmd_args = cmd_args cmd_args = add_arg_formatted_param(cmd_args, fmt, value) return cmd_args def process_command_output(self, rc, out, err): return rc, out, err def run_command(self, extra_params=None, params=None, *args, **kwargs): self.vars['cmd_args'] = self._calculate_args(extra_params, params) env_update = kwargs.get('environ_update', {}) check_rc = kwargs.get('check_rc', self.check_rc) if self.force_lang: env_update.update({'LANGUAGE': self.force_lang}) self.update_output(force_lang=self.force_lang) rc, out, err = self.module.run_command(self.vars['cmd_args'], environ_update=env_update, check_rc=check_rc, *args, **kwargs) self.update_output(rc=rc, stdout=out, stderr=err) return self.process_command_output(rc, out, err)