Source code for heat.engine.attributes

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#    Licensed under the Apache License, Version 2.0 (the "License"); you may
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#    a copy of the License at
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#         http://www.apache.org/licenses/LICENSE-2.0
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#    Unless required by applicable law or agreed to in writing, software
#    distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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import collections

from oslo_utils import strutils
import six

from heat.common.i18n import _
from heat.common.i18n import repr_wrapper
from heat.engine import constraints as constr
from heat.engine import support

from oslo_log import log as logging

LOG = logging.getLogger(__name__)


[docs]class Schema(constr.Schema): """Simple schema class for attributes. Schema objects are serializable to dictionaries following a superset of the HOT input Parameter schema using dict(). """ KEYS = ( DESCRIPTION, TYPE ) = ( 'description', 'type', ) CACHE_MODES = ( CACHE_LOCAL, CACHE_NONE ) = ( 'cache_local', 'cache_none' ) TYPES = ( UNKNOWN, STRING, MAP, LIST, INTEGER, BOOLEAN ) = ( None, 'String', 'Map', 'List', 'Integer', 'Boolean' ) def __init__(self, description=None, support_status=support.SupportStatus(), cache_mode=CACHE_LOCAL, type=UNKNOWN): super(Schema, self).__init__(type, description) self.support_status = support_status self.cache_mode = cache_mode self.validate() def __getitem__(self, key): if key == self.DESCRIPTION: if self.description is not None: return self.description elif key == self.TYPE: if self.type is not None: return self.type.lower() raise KeyError(key)
[docs] @classmethod def from_attribute(cls, schema_dict): """Return a Property Schema corresponding to a Attribute Schema.""" msg = 'Old attribute schema is not supported' assert isinstance(schema_dict, cls), msg return schema_dict
[docs]def schemata(schema): """Return dictionary of Schema objects for given dictionary of schemata.""" return dict((n, Schema.from_attribute(s)) for n, s in schema.items())
[docs]class Attribute(object): """An Attribute schema.""" def __init__(self, attr_name, schema): """Initialise with a name and schema. :param attr_name: the name of the attribute :param schema: attribute schema """ self.name = attr_name self.schema = Schema.from_attribute(schema)
[docs] def support_status(self): return self.schema.support_status
[docs] def as_output(self, resource_name, template_type='cfn'): """Output entry for a provider template with the given resource name. :param resource_name: the logical name of the provider resource :param template_type: the template type to generate :returns: This attribute as a template 'Output' entry for cfn template and 'output' entry for hot template """ if template_type == 'hot': return { "value": {"get_attr": [resource_name, self.name]}, "description": self.schema.description } else: return { "Value": {"Fn::GetAtt": [resource_name, self.name]}, "Description": self.schema.description }
def _stack_id_output(resource_name, template_type='cfn'): if template_type == 'hot': return { "value": {"get_resource": resource_name}, } else: return { "Value": {"Ref": resource_name}, } BASE_ATTRIBUTES = (SHOW_ATTR, ) = ('show', ) # Returned by function.dep_attrs() to indicate that all attributes are # referenced ALL_ATTRIBUTES = '*'
[docs]@repr_wrapper class Attributes(collections.Mapping): """Models a collection of Resource Attributes.""" def __init__(self, res_name, schema, resolver): self._resource_name = res_name self._resolver = resolver self.set_schema(schema) self.reset_resolved_values() assert ALL_ATTRIBUTES not in schema, \ "Invalid attribute name '%s'" % ALL_ATTRIBUTES
[docs] def reset_resolved_values(self): if hasattr(self, '_resolved_values'): self._has_new_resolved = len(self._resolved_values) > 0 else: self._has_new_resolved = False self._resolved_values = {}
[docs] def set_schema(self, schema): self._attributes = self._make_attributes(schema)
[docs] def get_cache_mode(self, attribute_name): """Return the cache mode for the specified attribute. If the attribute is not defined in the schema, the default cache mode (CACHE_LOCAL) is returned. """ try: return self._attributes[attribute_name].schema.cache_mode except KeyError: return Schema.CACHE_LOCAL
@staticmethod def _make_attributes(schema): return dict((n, Attribute(n, d)) for n, d in schema.items())
[docs] @staticmethod def as_outputs(resource_name, resource_class, template_type='cfn'): """Dict of Output entries for a provider template with resource name. :param resource_name: logical name of the resource :param resource_class: resource implementation class :returns: The attributes of the specified resource_class as a template Output map """ attr_schema = {} for name, schema_data in resource_class.attributes_schema.items(): schema = Schema.from_attribute(schema_data) if schema.support_status.status != support.HIDDEN: attr_schema[name] = schema attr_schema.update(resource_class.base_attributes_schema) attribs = Attributes._make_attributes(attr_schema).items() outp = dict((n, att.as_output(resource_name, template_type)) for n, att in attribs) outp['OS::stack_id'] = _stack_id_output(resource_name, template_type) return outp
[docs] @staticmethod def schema_from_outputs(json_snippet): if json_snippet: return dict((k, Schema(v.get("Description"))) for k, v in json_snippet.items()) return {}
def _validate_type(self, attrib, value): if attrib.schema.type == attrib.schema.STRING: if not isinstance(value, six.string_types): LOG.warning("Attribute %(name)s is not of type " "%(att_type)s", {'name': attrib.name, 'att_type': attrib.schema.STRING}) elif attrib.schema.type == attrib.schema.LIST: if (not isinstance(value, collections.Sequence) or isinstance(value, six.string_types)): LOG.warning("Attribute %(name)s is not of type " "%(att_type)s", {'name': attrib.name, 'att_type': attrib.schema.LIST}) elif attrib.schema.type == attrib.schema.MAP: if not isinstance(value, collections.Mapping): LOG.warning("Attribute %(name)s is not of type " "%(att_type)s", {'name': attrib.name, 'att_type': attrib.schema.MAP}) elif attrib.schema.type == attrib.schema.INTEGER: if not isinstance(value, int): LOG.warning("Attribute %(name)s is not of type " "%(att_type)s", {'name': attrib.name, 'att_type': attrib.schema.INTEGER}) elif attrib.schema.type == attrib.schema.BOOLEAN: try: strutils.bool_from_string(value, strict=True) except ValueError: LOG.warning("Attribute %(name)s is not of type " "%(att_type)s", {'name': attrib.name, 'att_type': attrib.schema.BOOLEAN}) @property def cached_attrs(self): return self._resolved_values @cached_attrs.setter def cached_attrs(self, c_attrs): if c_attrs is None: self._resolved_values = {} else: self._resolved_values = c_attrs self._has_new_resolved = False
[docs] def set_cached_attr(self, key, value): self._resolved_values[key] = value self._has_new_resolved = True
[docs] def has_new_cached_attrs(self): """Returns True if cached_attrs have changed Allows the caller to determine if this instance's cached_attrs have been updated since they were initially set (if at all). """ return self._has_new_resolved
def __getitem__(self, key): if key not in self: raise KeyError(_('%(resource)s: Invalid attribute %(key)s') % dict(resource=self._resource_name, key=key)) attrib = self._attributes.get(key) if attrib.schema.cache_mode == Schema.CACHE_NONE: return self._resolver(key) if key in self._resolved_values: return self._resolved_values[key] value = self._resolver(key) if value is not None: # validate the value against its type self._validate_type(attrib, value) # only store if not None, it may resolve to an actual value # on subsequent calls self.set_cached_attr(key, value) return value def __len__(self): return len(self._attributes) def __contains__(self, key): return key in self._attributes def __iter__(self): return iter(self._attributes) def __repr__(self): return ("Attributes for %s:\n\t" % self._resource_name + '\n\t'.join(six.itervalues(self)))
[docs]def select_from_attribute(attribute_value, path): """Select an element from an attribute value. :param attribute_value: the attribute value. :param path: a list of path components to select from the attribute. :returns: the selected attribute component value. """ def get_path_component(collection, key): if not isinstance(collection, (collections.Mapping, collections.Sequence)): raise TypeError(_("Can't traverse attribute path")) if not isinstance(key, (six.string_types, int)): raise TypeError(_('Path components in attributes must be strings')) return collection[key] try: return six.moves.reduce(get_path_component, path, attribute_value) except (KeyError, IndexError, TypeError): return None