# coding: utf-8 from copy import copy from collections import OrderedDict from os.path import join, basename from ast import literal_eval import imp from .i18n import _ from .utils import normalize_family from .error import CreoleDictConsistencyError from .xmlreflector import HIGH_COMPATIBILITY #mode order is important modes_level = ('basic', 'normal', 'expert') class Mode(object): def __init__(self, name, level): self.name = name self.level = level def __cmp__(self, other): return cmp(self.level, other.level) def __eq__(self, other): return self.level == other.level def __ne__(self, other): return self.level != other.level def __gt__(self, other): return other.level < self.level def __ge__(self, other): return not self.level < other.level def __le__(self, other): return not other.level < self.level def mode_factory(): mode_obj = {} for idx in range(len(modes_level)): name = modes_level[idx] mode_obj[name] = Mode(name, idx) return mode_obj modes = mode_factory() # a CreoleObjSpace's attribute has some annotations # that shall not be present in the exported (flatened) XML ERASED_ATTRIBUTES = ('redefine', 'exists', 'fallback', 'optional', 'remove_check', 'namespace', 'remove_condition', 'path', 'instance_mode', 'index', 'is_in_leadership') # , '_real_container') ERASED_CONTAINER_ATTRIBUTES = ('id', 'container', 'group_id', 'group', 'container_group') NOT_NEED_ACTIVATE = ('disknod',) FORCE_CHOICE = {'oui/non': ['oui', 'non'], 'on/off': ['on', 'off'], 'yes/no': ['yes', 'no'], 'schedule': ['none', 'daily', 'weekly', 'monthly'], 'schedulemod': ['pre', 'post']} KEY_TYPE = {'SymLinkOption': 'symlink', 'PortOption': 'port', 'UnicodeOption': 'string', 'NetworkOption': 'network', 'NetmaskOption': 'netmask', 'URLOption': 'web_address', 'FilenameOption': 'filename'} TYPE_PARAM_CHECK = ('string', 'python', 'eole') TYPE_PARAM_CONDITION = ('string', 'python', 'number', 'eole') TYPE_PARAM_FILL = ('string', 'eole', 'number', 'context') DISKNOD_KEY_TYPE = {'major': 'number', 'minor': 'number'} ERASED_FAMILY_ACTION_ATTRIBUTES = ('index', 'action') FREEZE_AUTOFREEZE_VARIABLE = 'module_instancie' class ContainerAnnotator: """Manage container's object """ def __init__(self, objectspace): self.space = objectspace.space self.paths = objectspace.paths self.objectspace = objectspace """for example:: 123 ntpd """ self.grouplist_conditions = {} self.convert_containers() def convert_containers(self): if hasattr(self.space, 'containers'): if hasattr(self.space.containers, 'container'): self.convert_all() subelts = dict() # self.space.containers.containers = self.objectspace.containers() for idx, container in enumerate(self.space.containers.container.values()): family = self.objectspace.family() family.name = 'container{}'.format(idx) family.doc = container.name family.family = OrderedDict() self.convert_container_to_family(family.name, family.family, container) setattr(self.space.containers, family.name, family) del self.space.containers.container else: del self.space.containers def convert_all(self): if hasattr(self.space.containers, 'all'): # Remove "all" and dispatch informations in all containers for type_, containers in vars(self.space.containers.all).items(): if type_ == 'index': continue if isinstance(containers, list): for elt in containers: for container in self.space.containers.container.values(): if container.name != 'all': if not hasattr(container, type_): setattr(container, type_, []) new_elt = copy(elt) new_elt.container = container getattr(container, type_).append(new_elt) else: for name, elt in containers.items(): for container in self.space.containers.container.values(): if container.name != 'all': if not hasattr(container, type_): setattr(container, type_, OrderedDict()) old_container = getattr(container, type_) if name in old_container: raise CreoleDictConsistencyError('{}'.format(name)) new_elt = copy(elt) new_elt.container = container old_container[name] = new_elt del self.space.containers.all def convert_container_to_family(self, container_name, container_family, container): # tranform container object to family object # add services, service_accesses, ... for elttype in self.objectspace.container_elt_attr_list: if hasattr(container, elttype): family = self.objectspace.family() key_type_name = elttype.upper() + '_KEY_TYPE' if key_type_name in globals(): key_type = globals()[key_type_name] else: key_type = {} if elttype.endswith('s'): family.name = elttype + 'es' else: family.name = elttype + 's' values = getattr(container, elttype) if isinstance(values, dict): values = list(values.values()) family.family = self.make_group_from_elts(elttype, values, key_type, 'containers.{}.{}'.format(container_name, family.name), True) family.mode = None container_family[family.name] = family def _generate_element(self, eltname, name, value, type_, subpath, multi=False): var_data = {'name': name, 'doc': '', 'value': value, 'auto_freeze': False, 'mode': None, 'multi': multi} values = None if type_ == 'string': values = self.objectspace.forced_choice_option.get(eltname, {}).get(name) if values is not None: type_ = 'choice' var_data['type'] = type_ variable = self.objectspace.variable() if not HIGH_COMPATIBILITY: variable.mandatory = True for key, value in var_data.items(): if key == 'value': if value is None: continue if type_ == 'symlink': key = 'opt' else: # Value is a list of objects if not multi: val = self.objectspace.value() val.name = value value = [val] else: value_list = [] for valiter in value: val = self.objectspace.value() val.name = valiter.name value_list.append(val) value = value_list if key == 'doc' and type_ == 'symlink': continue setattr(variable, key, value) if values is not None: choices = [] for value in values: choice = self.objectspace.choice() choice.name = value choices.append(choice) variable.choice = choices path = '{}.{}'.format(subpath, name) self.paths.append('variable', path, 'containers', 'containers', variable) return variable def _make_disknod_auto(self, type_, index, variable, container_path): if not hasattr(self.space.constraints, 'auto'): self.space.constraints.auto = [] auto = self.objectspace.auto() self.objectspace.index += 1 auto.index = self.objectspace.index auto.namespace = 'containers' param1 = self.objectspace.param() param1.text = type_ param2 = self.objectspace.param() param2.text = variable.name auto.param = [param1, param2] auto.name = 'cdrom_minormajor' family = 'disknod{}'.format(index) auto.target = '{}.{}.{}'.format(container_path, family, type_) if not hasattr(self.space, 'constraints'): self.space.constraints = self.objectspace.constraints() self.space.constraints.auto.append(auto) def _make_disknod_type(self, index, variable, container_path): auto = self.objectspace.auto() self.objectspace.index += 1 auto.index = self.objectspace.index auto.namespace = 'containers' param = self.objectspace.param() param.text = variable.name auto.param = [param] auto.name = 'device_type' family = 'disknod{}'.format(index) auto.target = '{}.{}.type'.format(container_path, family) if not hasattr(self.space, 'constraints'): self.space.constraints = self.objectspace.constraints() if not hasattr(self.space.constraints, 'auto'): self.space.constraints.auto = [] self.space.constraints.auto.append(auto) def _update_disknod(self, disknod, index, container_path): disknod.major = None disknod.minor = None disknod.type = None self._make_disknod_auto('minor', index, disknod, container_path) self._make_disknod_auto('major', index, disknod, container_path) self._make_disknod_type(index, disknod, container_path) disknod.mode = u'rwm' disknod.permission = 'allow' def _update_file(self, file_, index, container_path): if not hasattr(file_, 'source'): file_.source = basename(file_.name) def _split_elts(self, name, key, value, elt): """for example:: 123 ntpd builds a `service_access` object, but we need **two** objects `service_access`, for example one for the port and one for the tcpwrapper """ for subelt in value: new_elt = copy(elt) for subsubelt in dir(subelt): if subsubelt.startswith('_') or subsubelt == 'index': continue if hasattr(new_elt, subsubelt): if hasattr(elt, 'name'): name_ = elt.name else: name_ = elt.service raise CreoleDictConsistencyError(_('attribute {} already exists ' 'for {}').format(subsubelt, name_)) setattr(new_elt, subsubelt, getattr(subelt, subsubelt)) if hasattr(new_elt, 'node_name') or hasattr(new_elt, 'name_type'): raise CreoleDictConsistencyError(_('attribute node_name or name_type ' 'already exists for {}' '').format(name)) if hasattr(subelt, key + '_type'): type_ = getattr(subelt, key + '_type') setattr(new_elt, 'name_type', type_) setattr(new_elt, 'node_name', key) if not hasattr(new_elt, name + 'list'): setattr(new_elt, name + 'list', '___auto_{}'.format(elt.service)) else: self.grouplist_conditions[new_elt] = '___auto_{}'.format(elt.service) yield new_elt def _reorder_elts(self, name, elts, duplicate_list): """Reorders by index the elts (the interface, the hosts, actions...) """ dict_elts = OrderedDict() # reorder elts by index new_elts = {} not_indexed = [] for elt in elts: if not hasattr(elt, 'index'): not_indexed.append(elt) else: idx = elt.index new_elts.setdefault(idx, []).append(elt) idxes = list(new_elts.keys()) idxes.sort() elts = not_indexed for idx in idxes: elts.extend(new_elts[idx]) for idx, elt in enumerate(elts): elt_added = False for key in dir(elt): if key.startswith('_') or key.endswith('_type') or key in ERASED_ATTRIBUTES: continue value = getattr(elt, key) if isinstance(value, list) and duplicate_list: for new_elt in self._split_elts(name, key, value, elt): dict_elts.setdefault(new_elt.name, []).append({'elt_name': key, 'elt': new_elt}) elt_added = True if not elt_added: if hasattr(elt, 'name'): eltname = elt.name else: eltname = idx dict_elts.setdefault(eltname, []).append({'elt_name': name, 'elt': elt}) result_elts = [] for elt in dict_elts.values(): result_elts.extend(elt) return result_elts def make_group_from_elts(self, name, elts, key_type, path, duplicate_list): """Splits each objects into a group (and `OptionDescription`, in tiramisu terms) and build elements and its attributes (the `Options` in tiramisu terms) """ families = [] new_elts = self._reorder_elts(name, elts, duplicate_list) for index, elt_info in enumerate(new_elts): elt = elt_info['elt'] elt_name = elt_info['elt_name'] # try to launch _update_xxxx() function update_elt = '_update_' + elt_name if hasattr(self, update_elt): getattr(self, update_elt)(elt, index, path) variables = [] subpath = '{}.{}{}'.format(path, name, index) listname = '{}list'.format(name) activate_path = '.'.join([subpath, 'activate']) if name not in NOT_NEED_ACTIVATE and elt in self.grouplist_conditions: # FIXME transformer le activate qui disparait en boolean self.objectspace.list_conditions.setdefault(listname, {}).setdefault(self.grouplist_conditions[elt], []).append(activate_path) for key in dir(elt): if key.startswith('_') or key.endswith('_type') or key in ERASED_ATTRIBUTES: continue value = getattr(elt, key) if isinstance(value, list) and duplicate_list: continue if key == 'container': value = value.name if name not in NOT_NEED_ACTIVATE and key == listname: self.objectspace.list_conditions.setdefault(listname, {}).setdefault( value, []).append(activate_path) continue default_type = 'string' if key in self.objectspace.booleans_attributs: default_type = 'boolean' type_ = key_type.get(key, default_type) dtd_key_type = key + '_type' if hasattr(elt, dtd_key_type): type_ = KEY_TYPE[getattr(elt, dtd_key_type)] multi = isinstance(value, list) variables.append(self._generate_element(elt_name, key, value, type_, subpath, multi)) if name not in NOT_NEED_ACTIVATE: # FIXME ne devrait pas etre True par défaut variables.append(self._generate_element(name, 'activate', True, 'boolean', subpath)) family = self.objectspace.family() family.name = '{}{}'.format(name, index) family.variable = variables family.mode = None self.paths.append('family', subpath, 'containers', creoleobj=family) families.append(family) return families class ActionAnnotator(ContainerAnnotator): def __init__(self, objectspace): self.space = objectspace.space self.paths = objectspace.paths self.objectspace = objectspace self.grouplist_conditions = {} self.convert_family_action() def convert_family_action(self): if hasattr(self.space, 'family_action'): actions = self.objectspace.family() actions.name = 'actions' actions.mode = None actions.family = [] self.space.actions = actions namespaces = [] for name, actions in self.space.family_action.items(): subpath = 'actions.{}'.format(normalize_family(name)) for action in actions.action: namespace = action.namespace if namespace in namespaces: raise CreoleDictConsistencyError(_('only one action allow for {}' '').format(namespace)) namespaces.append(namespace) action.name = action.namespace new_actions = self.make_group_from_elts('action', actions.action, {}, subpath, False) family = self.objectspace.family() family.name = actions.name family.family = new_actions family.mode = None variables = [] for key, value in vars(actions).items(): if key not in ERASED_FAMILY_ACTION_ATTRIBUTES: variables.append(self._generate_element('action', key, value, 'string', subpath)) family.variable = variables self.space.actions.family.append(family) del self.space.family_action class SpaceAnnotator(object): """Transformations applied on a CreoleObjSpace instance """ def __init__(self, objectspace, eosfunc_file): self.paths = objectspace.paths self.space = objectspace.space self.objectspace = objectspace self.valid_enums = {} self.force_value = {} self.has_calc = [] self.force_no_value = [] self.force_not_mandatory = [] if eosfunc_file is not None: self.eosfunc = imp.load_source('eosfunc', eosfunc_file) else: self.eosfunc = None if HIGH_COMPATIBILITY: self.default_has_no_value = [] self.has_frozen_if_in_condition = [] self.default_variable_options() self.convert_auto_freeze() self.convert_groups() self.filter_check() self.filter_condition() self.convert_valid_enums() self.convert_check() self.convert_autofill() self.remove_empty_families() self.change_variable_mode() self.change_family_mode() self.filter_separators() self.absolute_path_for_symlink_in_containers() self.convert_helps() if hasattr(self.space, 'constraints'): del self.space.constraints.index if vars(self.space.constraints): raise Exception('constraints again?') del self.space.constraints def absolute_path_for_symlink_in_containers(self): if not hasattr(self.space, 'containers'): return families = vars(self.space.containers).values() for family in families: if hasattr(family, 'family'): for fam in family.family.values(): for fam1 in fam.family: for variable in fam1.variable: if variable.type == 'symlink' and '.' not in variable.name: variable.opt = self.paths.get_variable_path(variable.opt, 'creole') def convert_helps(self): # FIXME l'aide doit etre dans la variable! if not hasattr(self.space, 'help'): return helps = self.space.help if hasattr(helps, 'variable'): for hlp in helps.variable.values(): variable = self.paths.get_variable_obj(hlp.name) variable.help = hlp.text if hasattr(helps, 'family'): for hlp in helps.family.values(): variable = self.paths.get_family_obj(hlp.name) variable.help = hlp.text del self.space.help def convert_groups(self): # pylint: disable=C0111 if hasattr(self.space, 'constraints'): if hasattr(self.space.constraints, 'group'): for group in self.space.constraints.group: leader_fullname = group.master follower_names = list(group.slave.keys()) leader_family_name = self.paths.get_variable_family_name(leader_fullname) namespace = self.paths.get_variable_namespace(leader_fullname) leader_name = self.paths.get_variable_name(leader_fullname) leader_family = self.space.variables[namespace].family[leader_family_name] leader_path = namespace + '.' + leader_family_name is_leader = False for variable in list(leader_family.variable.values()): if isinstance(variable, self.objectspace.Leadership): # append follower to an existed leadership if variable.name == leader_name: leader_space = variable is_leader = True else: if is_leader: if variable.name == follower_names[0]: # followers are multi if not variable.multi is True: raise CreoleDictConsistencyError(_('the variable {} in a group must be multi').format(variable.name)) follower_names.remove(variable.name) leader_family.variable.pop(variable.name) leader_space.variable.append(variable) # pylint: disable=E1101 if namespace == 'creole': variable_fullpath = variable.name else: variable_fullpath = leader_path + '.' + variable.name self.paths.set_leader(variable_fullpath, leader_name) if follower_names == []: break else: raise CreoleDictConsistencyError(_('cannot found this follower {}').format(follower_names[0])) if is_leader is False and variable.name == leader_name: leader_space = self.objectspace.Leadership() leader_space.variable = [] leader_space.name = leader_name leader_space.hidden = variable.hidden variable.hidden = None self.paths.append('family', leader_path + '.' + leader_name, namespace, creoleobj=leader_space) # manage leader's variable if variable.multi is not True: raise CreoleDictConsistencyError(_('the variable {} in a group must be multi').format(variable.name)) leader_family.variable[leader_name] = leader_space leader_space.variable.append(variable) # pylint: disable=E1101 self.paths.set_leader(leader_fullname, leader_name) leader_space.path = leader_fullname is_leader = True else: raise CreoleDictConsistencyError(_('cannot found followers {}').format(follower_names)) del self.space.constraints.group def remove_empty_families(self): # pylint: disable=C0111,R0201 if hasattr(self.space, 'variables'): for family in self.space.variables.values(): if hasattr(family, 'family'): space = family.family removed_families = [] for family_name, family in space.items(): if not hasattr(family, 'variable') or len(family.variable) == 0: removed_families.append(family_name) del space[family_name] # remove help too if hasattr(self.space, 'help') and hasattr(self.space.help, 'family'): for family in self.space.help.family.keys(): if family in removed_families: del self.space.help.family[family] def change_family_mode(self): # pylint: disable=C0111 if not hasattr(self.space, 'variables'): return for family in self.space.variables.values(): if hasattr(family, 'family'): for family in family.family.values(): mode = modes_level[-1] for variable in family.variable.values(): if isinstance(variable, self.objectspace.Leadership): variable_mode = variable.variable[0].mode variable.variable[0].mode = None variable.mode = variable_mode else: variable_mode = variable.mode if variable_mode is not None and modes[mode] > modes[variable_mode]: mode = variable_mode if family.name == 'Containers': family.mode = 'normal' else: family.mode = mode def _annotate_variable(self, variable, family_mode, path, is_follower=False): if (HIGH_COMPATIBILITY and variable.type == 'choice' and variable.mode != modes_level[-1] and variable.mandatory is True and path in self.default_has_no_value): variable.mode = modes_level[0] if variable.type == 'choice' and is_follower and family_mode == modes_level[0] and variable.mandatory is True: variable.mode = modes_level[0] # if the variable is mandatory and doesn't have any value # then the variable's mode is set to 'basic' has_value = hasattr(variable, 'value') if (path not in self.has_calc and variable.mandatory is True and (not has_value or is_follower) and variable.type != 'choice'): variable.mode = modes_level[0] if has_value: if not HIGH_COMPATIBILITY or (not path.startswith('creole.containers.') \ and path not in self.force_no_value and path not in self.force_not_mandatory): variable.mandatory = True if variable.hidden is True: variable.frozen = True if not variable.auto_save is True and 'force_default_on_freeze' not in vars(variable): variable.force_default_on_freeze = True if variable.name == 'frozen' and not variable.auto_save is True: variable.force_default_on_freeze = True if variable.mode != None and not is_follower and modes[variable.mode] < modes[family_mode]: variable.mode = family_mode if variable.mode != None and variable.mode != modes_level[0] and modes[variable.mode] < modes[family_mode]: variable.mode = family_mode if variable.name == "available_probes": variable.force_default_on_freeze = False def default_variable_options(self): if hasattr(self.space, 'variables'): for families in self.space.variables.values(): if hasattr(families, 'family'): for family in families.family.values(): if hasattr(family, 'variable'): for variable in family.variable.values(): if not hasattr(variable, 'type'): variable.type = 'string' if variable.type != 'symlink' and not hasattr(variable, 'description'): variable.description = variable.name def convert_auto_freeze(self): # pylint: disable=C0111 if hasattr(self.space, 'variables'): for variables in self.space.variables.values(): if hasattr(variables, 'family'): for family in variables.family.values(): if hasattr(family, 'variable'): for variable in family.variable.values(): if variable.auto_freeze: new_condition = self.objectspace.condition() new_condition.name = 'auto_frozen_if_in' new_condition.namespace = variables.name new_condition.source = FREEZE_AUTOFREEZE_VARIABLE new_param = self.objectspace.param() new_param.text = 'oui' new_condition.param = [new_param] new_target = self.objectspace.target() new_target.type = 'variable' if variables.name == 'creole': path = variable.name else: path = variable.namespace + '.' + family.name + '.' + variable.name new_target.name = path new_condition.target = [new_target] if not hasattr(self.space.constraints, 'condition'): self.space.constraints.condition = [] self.space.constraints.condition.append(new_condition) def _set_valid_enum(self, variable, values, type_): if isinstance(values, list): variable.mandatory = True variable.choice = [] choices = [] for value in values: choice = self.objectspace.choice() choice.name = str(value) choices.append(choice.name) choice.type = type_ variable.choice.append(choice) if not variable.choice: raise CreoleDictConsistencyError(_('empty valid enum is not allowed for variable {}').format(variable.name)) if hasattr(variable, 'value'): for value in variable.value: value.type = type_ if value.name not in choices: raise CreoleDictConsistencyError(_('value "{}" of variable "{}" is not in list of all expected values ({})').format(value.name, variable.name, choices)) else: new_value = self.objectspace.value() new_value.name = values[0] new_value.type = type_ variable.value = [new_value] else: # probe choice variable.choice = values variable.type = 'choice' def _convert_valid_enum(self, variable, path): if variable.type in FORCE_CHOICE: if path in self.valid_enums: raise CreoleDictConsistencyError(_('cannot set valid enum for variable with type {}').format(variable.type)) self._set_valid_enum(variable, FORCE_CHOICE[variable.type], 'string') if path in self.valid_enums: values = self.valid_enums[path]['values'] self._set_valid_enum(variable, values, variable.type) del self.valid_enums[path] if path in self.force_value: new_value = self.objectspace.value() new_value.name = self.force_value[path] variable.value = [new_value] del self.force_value[path] def convert_valid_enums(self): # pylint: disable=C0111 if not hasattr(self.space, 'variables'): return for variables in self.space.variables.values(): namespace = variables.name if hasattr(variables, 'family'): for family in variables.family.values(): if hasattr(family, 'variable'): for variable in family.variable.values(): if isinstance(variable, self.objectspace.Leadership): for follower in variable.variable: path = '{}.{}.{}.{}'.format(namespace, family.name, variable.name, follower.name) self._convert_valid_enum(follower, path) else: path = '{}.{}.{}'.format(namespace, family.name, variable.name) self._convert_valid_enum(variable, path) # valid_enums must be empty now (all information are store in objects) if self.valid_enums: raise CreoleDictConsistencyError(_('valid_enum sets for unknown variables {}').format(self.valid_enums.keys())) def change_variable_mode(self): # pylint: disable=C0111 if not hasattr(self.space, 'variables'): return for variables in self.space.variables.values(): if hasattr(variables, 'family'): for family in variables.family.values(): family_mode = family.mode if hasattr(family, 'variable'): for variable in family.variable.values(): if isinstance(variable, self.objectspace.Leadership): mode = modes_level[-1] for follower in variable.variable: if follower.auto_save is True: raise CreoleDictConsistencyError(_('leader/followers {} ' 'could not be ' 'auto_save').format(follower.name)) if follower.auto_freeze is True: raise CreoleDictConsistencyError(_('leader/followers {} ' 'could not be ' 'auto_freeze').format(follower.name)) if HIGH_COMPATIBILITY and variable.name != follower.name: # and variable.variable[0].mode != modes_level[0]: is_follower = True else: is_follower = False path = '{}.{}.{}'.format(family.path, variable.name, follower.name) self._annotate_variable(follower, family_mode, path, is_follower) if HIGH_COMPATIBILITY: # leader's variable are right if modes[variable.variable[0].mode] > modes[follower.mode]: follower.mode = variable.variable[0].mode else: # auto_save's variable is set in 'basic' mode if its mode is 'normal' if follower.auto_save is True and follower.mode != modes_level[-1]: follower.mode = modes_level[0] if modes[mode] > modes[follower.mode]: mode = follower.mode if not HIGH_COMPATIBILITY: # the leader's mode is the lowest variable.variable[0].mode = mode variable.mode = variable.variable[0].mode else: # auto_save's variable is set in 'basic' mode if its mode is 'normal' if variable.auto_save is True and variable.mode != modes_level[-1]: variable.mode = modes_level[0] # auto_freeze's variable is set in 'basic' mode if its mode is 'normal' if variable.auto_freeze is True and variable.mode != modes_level[-1]: variable.mode = modes_level[0] path = '{}.{}'.format(family.path, variable.name) self._annotate_variable(variable, family_mode, path) def get_variable(self, name): # pylint: disable=C0111 return self.paths.get_variable_obj(name) def convert_autofill(self): # pylint: disable=C0111 if hasattr(self.space, 'constraints'): self.convert_duplicate_autofill(self.space.constraints) if 'auto' in vars(self.space.constraints): self.convert_auto(self.space.constraints.auto, self.space) if 'fill' in vars(self.space.constraints): self.convert_fill(self.space.constraints.fill, self.space) def convert_duplicate_autofill(self, constraints): """ Remove duplicate auto or fill for a variable This variable must be redefined """ fills = {} # sort fill/auto by index if 'fill' in vars(constraints): for idx, fill in enumerate(constraints.fill): if fill.index in fills: raise Exception('hu?') fills[fill.index] = {'idx': idx, 'fill': fill, 'type': 'fill'} if 'auto' in vars(constraints): for idx, fill in enumerate(constraints.auto): if fill.index in fills: raise Exception('hu?') fills[fill.index] = {'idx': idx, 'fill': fill, 'type': 'auto'} indexes = list(fills.keys()) indexes.sort() targets = {} remove_autos = [] remove_fills = [] for idx in indexes: fill = fills[idx]['fill'] if hasattr(fill, 'redefine'): redefine = bool(fill.redefine) else: redefine = False if fill.target in targets: if redefine: if targets[fill.target][1] == 'auto': remove_autos.append(targets[fill.target][0]) else: remove_fills.append(targets[fill.target][0]) else: raise CreoleDictConsistencyError(_("An auto or fill already exists " "for the target: {}").format( fill.target)) targets[fill.target] = (fills[idx]['idx'], fills[idx]['type']) remove_autos.sort(reverse=True) for idx in remove_autos: constraints.auto.pop(idx) remove_fills.sort(reverse=True) for idx in remove_fills: constraints.fill.pop(idx) def convert_auto(self, auto_space, space): # pylint: disable=C0111 for auto in auto_space: if HIGH_COMPATIBILITY and auto.target in self.has_frozen_if_in_condition: # if a variable has a 'frozen_if_in' condition # then we change the 'auto' variable as a 'fill' variable continue # an auto is a fill with "hidden" and "frozen" properties variable = self.get_variable(auto.target) if variable.auto_freeze: raise CreoleDictConsistencyError(_('variable with auto value ' 'cannot be auto_freeze').format(auto.target)) if variable.auto_save: raise CreoleDictConsistencyError(_('variable with auto value ' 'cannot be auto_save').format(auto.target)) leader = self.paths.get_leader(auto.target) if leader is None or variable.name != leader: variable.hidden = True else: leadership = self.paths.get_family_obj(self.paths.get_variable_family_path(auto.target)) leadership.hidden = True variable.frozen = True variable.force_default_on_freeze = True if 'fill' not in vars(space.constraints): space.constraints.fill = [] space.constraints.fill.extend(auto_space) del space.constraints.auto def filter_separators(self): # pylint: disable=C0111,R0201 # FIXME devrait etre dans la variable if not hasattr(self.space, 'variables'): return for family in self.space.variables.values(): if (hasattr(family, 'separators') and hasattr(family.separators, 'separator')): space = family.separators.separator names = [] for idx, separator in enumerate(space): namespace = self.paths.get_variable_namespace(separator.name) subpath = self.paths.get_variable_path(separator.name, namespace) separator.name = subpath if separator.name in names: raise CreoleDictConsistencyError(_('{} already has a separator').format(separator.name)) names.append(separator.name) def load_params_in_validenum(self, param): if param.type in ['string', 'python', 'number']: if not hasattr(param, 'text') and (param.type == 'python' or param.type == 'number'): raise CreoleDictConsistencyError(_("All '{}' variables shall be set in order to calculate {}").format(param.type, 'valid_enum')) if param.type in ['string', 'number']: try: values = literal_eval(param.text) except ValueError: raise CreoleDictConsistencyError(_('Cannot load {}').format(param.text)) elif param.type == 'python': try: values = eval(param.text, {'eosfunc': self.eosfunc, '__builtins__': {'range': range, 'str': str}}) #FIXME : eval('[str(i) for i in range(3, 13)]', {'eosfunc': eosfunc, '__builtins__': {'range': range, 'str': str}}) except NameError: raise CreoleDictConsistencyError(_('The function {} is unknown').format(param.text)) if not isinstance(values, list): raise CreoleDictConsistencyError(_('Function {} shall return a list').format(param.text)) new_values = [] for val in values: new_values.append(val) values = new_values else: values = param.text return values def filter_check(self): # pylint: disable=C0111 # valid param in check if not hasattr(self.space, 'constraints') or not hasattr(self.space.constraints, 'check'): return space = self.space.constraints.check remove_indexes = [] for check_idx, check in enumerate(space): namespace = check.namespace if hasattr(check, 'param'): param_option_indexes = [] for idx, param in enumerate(check.param): if param.type not in TYPE_PARAM_CHECK: raise CreoleDictConsistencyError(_('cannot use {} type as a param in check for {}').format(param.type, check.target)) if param.type == 'eole': if HIGH_COMPATIBILITY and param.text.startswith('container_ip'): if param.optional is True: param_option_indexes.append(idx) try: param.text = self.paths.get_variable_path(param.text, namespace) except CreoleDictConsistencyError as err: if param.optional is True: param_option_indexes.append(idx) else: raise err param_option_indexes = list(set(param_option_indexes)) param_option_indexes.sort(reverse=True) for idx in param_option_indexes: check.param.pop(idx) if not HIGH_COMPATIBILITY and check.param == []: remove_indexes.append(check_idx) remove_indexes.sort(reverse=True) for idx in remove_indexes: del space[idx] variables = {} for index, check in enumerate(space): namespace = check.namespace if HIGH_COMPATIBILITY: if not self.paths.path_is_defined(check.target): continue check.is_in_leadership = self.paths.get_leader(check.target) != None # let's replace the target by the path check.target = self.paths.get_variable_path(check.target, namespace) if check.target not in variables: variables[check.target] = [] variables[check.target].append((index, check)) # remove check already set for a variable remove_indexes = [] for checks in variables.values(): names = {} for idx, check in checks: if HIGH_COMPATIBILITY and check.name == 'valid_enum': redefine = True else: redefine = False #redefine = bool(check.redefine) if redefine and check.name in names: remove_indexes.append(names[check.name]) del names[check.name] names[check.name] = idx del check.index remove_indexes.sort(reverse=True) for idx in remove_indexes: del space[idx] remove_indexes = [] for idx, check in enumerate(space): if not check.name in dir(self.eosfunc): raise CreoleDictConsistencyError(_('cannot find check function {}').format(check.name)) #is_probe = not check.name in self.eosfunc.func_on_zephir_context #if is_probe: # raise CreoleDictConsistencyError(_('cannot have a check with probe function ({})').format(check.name)) if check.name == 'valid_enum': proposed_value_type = False remove_params = [] for param_idx, param in enumerate(check.param): if hasattr(param, 'name') and param.name == 'checkval': try: proposed_value_type = self.objectspace._convert_boolean(param.text) == False remove_params.append(param_idx) except TypeError as err: raise CreoleDictConsistencyError(_('cannot load checkval value for variable {}: {}').format(check.target, err)) if proposed_value_type: # no more supported raise CreoleDictConsistencyError(_('cannot load checkval value for variable {}, no more supported').format(check.target)) remove_params.sort(reverse=True) for param_idx in remove_params: del check.param[param_idx] if len(check.param) != 1: raise CreoleDictConsistencyError(_('cannot set more than one param ' 'for valid_enum for variable {}' '').format(check.target)) param = check.param[0] if proposed_value_type: if param.type != 'eole': try: values = self.load_params_in_validenum(param) except NameError as err: raise CreoleDictConsistencyError(_('cannot load value for variable {}: {}').format(check.target, err)) add_value = True if HIGH_COMPATIBILITY and check.is_in_leadership: add_value = False if add_value and values: self.force_value[check.target] = values[0] else: if check.target in self.valid_enums: raise CreoleDictConsistencyError(_('valid_enum already set for {}' '').format(check.target)) values = self.load_params_in_validenum(param) self.valid_enums[check.target] = {'type': param.type, 'values': values} remove_indexes.append(idx) remove_indexes.sort(reverse=True) for idx in remove_indexes: del space[idx] #convert level to "warnings_only" and hidden to "transitive" for check in space: if check.level == 'warning': check.warnings_only = True else: check.warnings_only = False check.level = None transitive = True if hasattr(check, 'param'): for param in check.param: if not param.hidden is True: transitive = False param.hidden = None check.transitive = transitive if not self.space.constraints.check: del self.space.constraints.check def convert_check(self): if not hasattr(self.space, 'constraints') or not hasattr(self.space.constraints, 'check'): return for check in self.space.constraints.check: variable = self.paths.get_variable_obj(check.target) check_ = self.objectspace.check() check_.type = 'calculation' name = check.name if name == 'valid_differ': name = 'valid_not_equal' elif name == 'valid_network_netmask': params_len = 1 if len(check.param) != params_len: raise CreoleLoaderError(_('{} must have {} param').format(name, params_len)) elif name == 'valid_ipnetmask': params_len = 1 if len(check.param) != params_len: raise CreoleLoaderError(_('{} must have {} param').format(name, params_len)) name = 'valid_ip_netmask' elif name == 'valid_broadcast': params_len = 2 if len(check.param) != params_len: raise CreoleLoaderError(_('{} must have {} param').format(name, params_len)) elif name == 'valid_in_network': params_len = 2 if len(check.param) != params_len: raise CreoleLoaderError(_('{} must have {} param').format(name, params_len)) check_.name = name check_.warnings_only = check.warnings_only check_.transitive = check.transitive if hasattr(check, 'param'): check_.param = check.param if not hasattr(variable, 'check'): variable.check = [] variable.check.append(check_) del self.space.constraints.check def convert_fill(self, fill_space, space): # pylint: disable=C0111,R0912 fills = {} # sort fill/auto by index for idx, fill in enumerate(fill_space): fills[fill.index] = {'idx': idx, 'fill': fill} del fill.index indexes = list(fills.keys()) indexes.sort() del_idx = [] for idx in indexes: fill = fills[idx]['fill'] variable = self.get_variable(fill.target) if hasattr(variable, 'value'): del variable.value namespace = fill.namespace # let's replace the target by the path fill.target = self.paths.get_variable_path(fill.target, namespace) if not fill.name in dir(self.eosfunc): raise CreoleDictConsistencyError(_('cannot find fill function {}').format(fill.name)) #is_probe = not fill.name in self.eosfunc.func_on_zephir_context if hasattr(fill, 'param'): for param in fill.param: if param.type not in TYPE_PARAM_FILL: raise CreoleDictConsistencyError(_('cannot use {} type as a param ' 'in a fill/auto').format(param.type)) param_option_indexes = [] for fill_idx, param in enumerate(fill.param): if not hasattr(param, 'text') and \ (param.type == 'eole' or param.type == 'number' or \ #param.type == 'container' or param.type == 'python'): param.type == 'python'): raise CreoleDictConsistencyError(_("All '{}' variables shall be set in " "order to calculate {}").format( param.type, fill.target)) # if param.type == 'container': # param.type = 'eole' # param.text = 'container_ip_{}'.format(param.text) if param.type == 'eole': #if is_probe: # raise CreoleDictConsistencyError(_('Function {0} used to calculate {1} ' # 'is executed on remote server, ' # 'so cannot depends to an ' # 'other variable' # ).format(fill.name, fill.target)) if HIGH_COMPATIBILITY and param.text.startswith('container_ip'): if param.optional is True: param_option_indexes.append(fill_idx) try: param.text = self.paths.get_variable_path(param.text, namespace) except CreoleDictConsistencyError as err: if param.optional is True: param_option_indexes.append(fill_idx) else: raise err param_option_indexes = list(set(param_option_indexes)) param_option_indexes.sort(reverse=True) for param_idx in param_option_indexes: fill.param.pop(param_idx) self.has_calc.append(fill.target) #if is_probe: # variable.force_default_on_freeze = False # self.objectspace.probe_variables.append(fill) # del_idx.append(fills[idx]['idx']) del_idx.sort(reverse=True) for idx in del_idx: space.constraints.fill.pop(idx) for fill in space.constraints.fill: variable = self.paths.get_variable_obj(fill.target) value = self.objectspace.value() value.type = 'calculation' value.name = fill.name if hasattr(fill, 'param'): value.param = fill.param if not hasattr(variable, 'value'): variable.value = [] variable.value.append(value) self.force_not_mandatory.append(fill.target) del space.constraints.fill def filter_targets(self): # pylint: disable=C0111 for condition_idx, condition in enumerate(self.space.constraints.condition): namespace = condition.namespace del_idx = [] for idx, target in enumerate(condition.target): if target.type == 'variable': if (hasattr(target, 'optional') and target.optional is True and not self.paths.path_is_defined(target.name)): del_idx.append(idx) continue if condition.source == target.name: raise CreoleDictConsistencyError(_('target name and source name must be different: {}').format(condition.source)) target.name = self.paths.get_variable_path(target.name, namespace) elif target.type == 'family': try: target.name = self.paths.get_family_path(target.name, namespace) except KeyError: raise CreoleDictConsistencyError(_('cannot found family {}').format(target.name)) del_idx = list(set(del_idx)) del_idx.sort(reverse=True) for idx in del_idx: condition.target.pop(idx) def filter_condition_servicelist(self): # automatic generation of the service_access lists # and the service_restriction lists from the servicelist for condition in self.space.constraints.condition: if hasattr(condition, 'target'): new_targets = [] for target in condition.target: if target.type == 'servicelist': new_target = copy(target) new_target.type = 'service_accesslist' new_target.name = '___auto_{}'.format(new_target.name) new_targets.append(new_target) new_target = copy(target) new_target.type = 'service_restrictionlist' new_target.name = '___auto_{}'.format(new_target.name) new_targets.append(new_target) condition.target.extend(new_targets) def check_condition_without_target(self): for condition in self.space.constraints.condition: if not hasattr(condition, 'target'): raise CreoleDictConsistencyError(_('target is mandatory in condition')) def check_condition_fallback_not_exists(self, fallback_variables, fallback_lists): # a condition with a fallback **and** the source variable doesn't exist remove_conditions = [] for idx, condition in enumerate(self.space.constraints.condition): if (hasattr(condition, 'fallback') and condition.fallback is True and not self.paths.path_is_defined(condition.source)): for target in condition.target: if target.type in ['variable', 'family']: name = target.name.split('.')[-1] if target.type == 'variable': variable = self.get_variable(name) else: variable = self.paths.get_family_obj(name) if condition.name in ['disabled_if_in']: variable.disabled = True if condition.name in ['mandatory_if_in']: variable.mandatory = True if condition.name in ['disabled_if_in', 'disabled_if_not_in', 'frozen_if_in', 'frozen_if_not_in']: variable.hidden = False if HIGH_COMPATIBILITY: fallback_variables.append(name) else: listname = target.type if not listname.endswith('list'): raise Exception('not yet implemented') listvars = self.objectspace.list_conditions.get(listname, {}).get(target.name) if listvars: for listvar in listvars: try: variable = self.get_variable(listvar) except CreoleDictConsistencyError: variable = self.paths.get_family_obj(listvar) if condition.name in ['disabled_if_in']: variable.disabled = True if condition.name in ['mandatory_if_in']: variable.mandatory = True if condition.name in ['disabled_if_in', 'disabled_if_not_in', 'frozen_if_in', 'frozen_if_not_in']: variable.hidden = False fallback_lists.append(listvar) remove_conditions.append(idx) remove_conditions = list(set(remove_conditions)) remove_conditions.sort(reverse=True) for idx in remove_conditions: self.space.constraints.condition.pop(idx) def convert_xxxlist_to_variable(self, fallback_lists): # pylint: disable=C0111 # transform *list to variable or family for condition_idx, condition in enumerate(self.space.constraints.condition): new_targets = [] remove_targets = [] for target_idx, target in enumerate(condition.target): if target.type not in ['variable', 'family']: listname = target.type if not listname.endswith('list'): raise Exception('not yet implemented') listvars = self.objectspace.list_conditions.get(listname, {}).get(target.name) if listvars: for listvar in listvars: if listvar in fallback_lists: continue try: variable = self.get_variable(listvar) type_ = 'variable' except CreoleDictConsistencyError: variable = self.paths.get_family_obj(listvar) type_ = 'family' new_target = self.objectspace.target() new_target.type = type_ new_target.name = listvar new_target.index = target.index new_targets.append(new_target) remove_targets.append(target_idx) remove_targets = list(set(remove_targets)) remove_targets.sort(reverse=True) for target_idx in remove_targets: condition.target.pop(target_idx) condition.target.extend(new_targets) def check_condition(self): # if condition.name == 'hidden_if_in': # condition.name = 'disabled_if_in' # elif condition.name == 'hidden_if_not_in': # condition.name = 'disabled_if_not_in' for condition in self.space.constraints.condition: if condition.name not in ['disabled_if_in', 'disabled_if_not_in', 'frozen_if_in', 'auto_frozen_if_in', 'frozen_if_not_in', 'mandatory_if_in', 'mandatory_if_not_in']: raise CreoleDictConsistencyError(_('unknown condition {}').format(condition.name)) def check_params(self): for condition in self.space.constraints.condition: for param in condition.param: if param.type not in TYPE_PARAM_CONDITION: raise CreoleDictConsistencyError(_('cannot use {} type as a param ' 'in a condition').format(param.type)) def check_choice_option_condition(self, force_remove_targets): # remove condition for ChoiceOption that don't have param remove_conditions = [] for condition_idx, condition in enumerate(self.space.constraints.condition): namespace = condition.namespace src_variable = self.paths.get_variable_obj(condition.source) condition.source = self.paths.get_variable_path(condition.source, namespace, allow_source=True) valid_enum = None if condition.source in self.valid_enums and \ self.valid_enums[condition.source]['type'] == 'string': valid_enum = self.valid_enums[condition.source]['values'] if src_variable.type in FORCE_CHOICE: valid_enum = FORCE_CHOICE[src_variable.type] if valid_enum is not None: remove_param = [] for param_idx, param in enumerate(condition.param): if param.text not in valid_enum: remove_param.append(param_idx) remove_param.sort(reverse=True) for idx in remove_param: del condition.param[idx] if condition.param == []: for target in condition.target: if target.name.startswith('creole.'): name = target.name.split('.')[-1] else: name = target.name if target.type == 'variable': variable = self.get_variable(name) else: variable = self.paths.get_family_obj(name) if condition.name == 'disabled_if_not_in': variable.disabled = True force_remove_targets.setdefault(condition.name, []).append(target.name) elif condition.name == 'frozen_if_not_in': variable.hidden = True force_remove_targets.setdefault(condition.name, []).append(target.name) elif condition.name == 'mandatory_if_not_in': variable.mandatory = True force_remove_targets.setdefault(condition.name, []).append(target.name) elif HIGH_COMPATIBILITY and condition.name == 'disabled_if_in': variable.hidden = False remove_conditions.append(condition_idx) remove_conditions = list(set(remove_conditions)) remove_conditions.sort(reverse=True) for idx in remove_conditions: self.space.constraints.condition.pop(idx) def manage_variable_property(self, force_remove_targets, fallback_variables): for condition in self.space.constraints.condition: remove_targets = [] #parse each variable and family for target_idx, target in enumerate(condition.target): if target.name in force_remove_targets.get(condition.name, []): remove_targets.append(target_idx) if target.name.startswith('creole.'): name = target.name.split('.')[-1] else: name = target.name if target.type == 'variable': variable = self.get_variable(name) else: variable = self.paths.get_family_obj(name) if name in fallback_variables: remove_targets.append(target_idx) continue if condition.name in ['disabled_if_in', 'disabled_if_not_in', 'frozen_if_in', 'frozen_if_not_in']: variable.hidden = False if condition.name in ['mandatory_if_in', 'mandatory_if_not_in']: variable.mandatory = False if HIGH_COMPATIBILITY and condition.name in ['frozen_if_in', 'frozen_if_not_in']: self.has_frozen_if_in_condition.append(name) if condition.name in ['mandatory_if_in', 'mandatory_if_not_in']: self.force_not_mandatory.append(target.name) remove_targets = list(set(remove_targets)) remove_targets.sort(reverse=True) for target_idx in remove_targets: condition.target.pop(target_idx) def remove_condition_with_empty_target(self): remove_conditions = [] for condition_idx, condition in enumerate(self.space.constraints.condition): if not condition.target: remove_conditions.append(condition_idx) remove_conditions = list(set(remove_conditions)) remove_conditions.sort(reverse=True) for idx in remove_conditions: self.space.constraints.condition.pop(idx) def filter_condition(self): # pylint: disable=C0111 if not hasattr(self.space, 'constraints') or not hasattr(self.space.constraints, 'condition'): return fallback_variables = [] fallback_lists = [] force_remove_targets = {} self.check_condition() self.check_params() self.check_condition_without_target() self.filter_condition_servicelist() self.check_condition_fallback_not_exists(fallback_variables, fallback_lists) self.filter_targets() self.convert_xxxlist_to_variable(fallback_lists) self.check_choice_option_condition(force_remove_targets) self.manage_variable_property(force_remove_targets, fallback_variables) self.remove_condition_with_empty_target() for condition in self.space.constraints.condition: if condition.name == 'disabled_if_in': actions = ['disabled'] inverse = False elif condition.name == 'disabled_if_not_in': actions = ['disabled'] inverse = True elif condition.name == 'frozen_if_in': actions = ['frozen', 'hidden', 'force_default_on_freeze'] inverse = False elif condition.name == 'frozen_if_not_in': actions = ['frozen', 'hidden', 'force_default_on_freeze'] inverse = True elif condition.name == 'mandatory_if_in': actions = ['mandatory'] inverse = False elif condition.name == 'mandatory_if_not_in': actions = ['mandatory'] inverse = True elif condition.name == 'auto_frozen_if_in': actions = ['auto_frozen'] inverse = True for param in condition.param: if hasattr(param, 'text'): param = param.text else: param = None for target in condition.target: if target.name.startswith('creole.'): name = target.name.split('.')[-1] else: name = target.name if target.type == 'variable': variable = self.get_variable(name) else: variable = self.paths.get_family_obj(name) if not hasattr(variable, 'property'): variable.property = [] for action in actions: prop = self.objectspace.property_() prop.type = 'calculation' prop.inverse = inverse prop.source = condition.source prop.expected = param prop.name = action variable.property.append(prop) del self.space.constraints.condition