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# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
from toscaparser.capabilities import Capability
from toscaparser.common.exception import ExceptionCollector
from toscaparser.common.exception import MissingRequiredFieldError
from toscaparser.common.exception import UnknownFieldError
from toscaparser.common.exception import ValidationError
from toscaparser.elements.grouptype import GroupType
from toscaparser.elements.interfaces import InterfacesDef
from toscaparser.elements.nodetype import NodeType
from toscaparser.elements.policytype import PolicyType
from toscaparser.elements.relationshiptype import RelationshipType
from toscaparser.properties import Property
from toscaparser.unsupportedtype import UnsupportedType
from toscaparser.utils.gettextutils import _
class EntityTemplate(object):
'''Base class for TOSCA templates.'''
SECTIONS = (DERIVED_FROM, PROPERTIES, REQUIREMENTS,
INTERFACES, CAPABILITIES, TYPE, DESCRIPTION, DIRECTIVES,
ATTRIBUTES, ARTIFACTS, NODE_FILTER, COPY) = \
('derived_from', 'properties', 'requirements', 'interfaces',
'capabilities', 'type', 'description', 'directives',
'attributes', 'artifacts', 'node_filter', 'copy')
REQUIREMENTS_SECTION = (NODE, CAPABILITY, RELATIONSHIP, OCCURRENCES, NODE_FILTER) = \
('node', 'capability', 'relationship',
'occurrences', 'node_filter')
# Special key names
SPECIAL_SECTIONS = (METADATA) = ('metadata')
def __init__(self, name, template, entity_name, custom_def=None):
self.name = name
self.entity_tpl = template
self.custom_def = custom_def
self._validate_field(self.entity_tpl)
type = self.entity_tpl.get('type')
UnsupportedType.validate_type(type)
if entity_name == 'node_type':
self.type_definition = NodeType(type, custom_def) \
if type is not None else None
if entity_name == 'relationship_type':
relationship = template.get('relationship')
type = None
if relationship and isinstance(relationship, dict):
type = relationship.get('type')
elif isinstance(relationship, str):
type = self.entity_tpl['relationship']
else:
type = self.entity_tpl['type']
UnsupportedType.validate_type(type)
self.type_definition = RelationshipType(type,
None, custom_def)
if entity_name == 'policy_type':
if not type:
msg = (_('Policy definition of "%(pname)s" must have'
' a "type" ''attribute.') % dict(pname=name))
ExceptionCollector.appendException(
ValidationError(msg))
self.type_definition = PolicyType(type, custom_def)
if entity_name == 'group_type':
self.type_definition = GroupType(type, custom_def) \
if type is not None else None
self._properties = None
self._interfaces = None
self._requirements = None
self._capabilities = None
@property
def type(self):
if self.type_definition:
return self.type_definition.type
@property
def parent_type(self):
if self.type_definition:
return self.type_definition.parent_type
@property
def requirements(self):
if self._requirements is None:
self._requirements = self.type_definition.get_value(
self.REQUIREMENTS,
self.entity_tpl) or []
return self._requirements
def get_properties_objects(self):
'''Return properties objects for this template.'''
if self._properties is None:
self._properties = self._create_properties()
return self._properties
def get_properties(self):
'''Return a dictionary of property name-object pairs.'''
return {prop.name: prop
for prop in self.get_properties_objects()}
def get_property_value(self, name):
'''Return the value of a given property name.'''
props = self.get_properties()
if props and name in props.keys():
return props[name].value
@property
def interfaces(self):
if self._interfaces is None:
self._interfaces = self._create_interfaces()
return self._interfaces
def get_capabilities_objects(self):
'''Return capabilities objects for this template.'''
if not self._capabilities:
self._capabilities = self._create_capabilities()
return self._capabilities
def get_capabilities(self):
'''Return a dictionary of capability name-object pairs.'''
return {cap.name: cap
for cap in self.get_capabilities_objects()}
def is_derived_from(self, type_str):
'''Check if object inherits from the given type.
Returns true if this object is derived from 'type_str'.
False otherwise.
'''
if not self.type:
return False
elif self.type == type_str:
return True
elif self.parent_type:
return self.parent_type.is_derived_from(type_str)
else:
return False
def _create_capabilities(self):
capability = []
caps = self.type_definition.get_value(self.CAPABILITIES,
self.entity_tpl, True)
if caps:
for name, props in caps.items():
capabilities = self.type_definition.get_capabilities()
if name in capabilities.keys():
c = capabilities[name]
properties = {}
# first use the definition default value
if c.properties:
for property_name in c.properties.keys():
prop_def = c.properties[property_name]
if 'default' in prop_def:
properties[property_name] = prop_def['default']
# then update (if available) with the node properties
if 'properties' in props and props['properties']:
properties.update(props['properties'])
cap = Capability(name, properties, c)
capability.append(cap)
return capability
def _validate_properties(self, template, entitytype):
properties = entitytype.get_value(self.PROPERTIES, template)
self._common_validate_properties(entitytype, properties)
def _validate_capabilities(self):
type_capabilities = self.type_definition.get_capabilities()
allowed_caps = \
type_capabilities.keys() if type_capabilities else []
capabilities = self.type_definition.get_value(self.CAPABILITIES,
self.entity_tpl)
if capabilities:
self._common_validate_field(capabilities, allowed_caps,
'capabilities')
self._validate_capabilities_properties(capabilities)
def _validate_capabilities_properties(self, capabilities):
for cap, props in capabilities.items():
capability = self.get_capability(cap)
if not capability:
continue
capabilitydef = capability.definition
self._common_validate_properties(capabilitydef,
props[self.PROPERTIES])
# validating capability properties values
for prop in self.get_capability(cap).get_properties_objects():
prop.validate()
# TODO(srinivas_tadepalli): temporary work around to validate
# default_instances until standardized in specification
if cap == "scalable" and prop.name == "default_instances":
prop_dict = props[self.PROPERTIES]
min_instances = prop_dict.get("min_instances")
max_instances = prop_dict.get("max_instances")
default_instances = prop_dict.get("default_instances")
if not (min_instances <= default_instances
<= max_instances):
err_msg = ('"properties" of template "%s": '
'"default_instances" value is not between '
'"min_instances" and "max_instances".' %
self.name)
ExceptionCollector.appendException(
ValidationError(message=err_msg))
def _common_validate_properties(self, entitytype, properties):
allowed_props = []
required_props = []
for p in entitytype.get_properties_def_objects():
allowed_props.append(p.name)
# If property is 'required' and has no 'default' value then record
if p.required and p.default is None:
required_props.append(p.name)
# validate all required properties have values
if properties:
req_props_no_value_or_default = []
self._common_validate_field(properties, allowed_props,
'properties')
# make sure it's not missing any property required by a tosca type
for r in required_props:
if r not in properties.keys():
req_props_no_value_or_default.append(r)
# Required properties found without value or a default value
if req_props_no_value_or_default:
ExceptionCollector.appendException(
MissingRequiredFieldError(
what='"properties" of template "%s"' % self.name,
required=req_props_no_value_or_default))
else:
# Required properties in schema, but not in template
if required_props:
ExceptionCollector.appendException(
MissingRequiredFieldError(
what='"properties" of template "%s"' % self.name,
required=required_props))
def _validate_field(self, template):
if not isinstance(template, dict):
ExceptionCollector.appendException(
MissingRequiredFieldError(
what='Template "%s"' % self.name, required=self.TYPE))
try:
relationship = template.get('relationship')
if relationship and not isinstance(relationship, str):
relationship[self.TYPE]
elif isinstance(relationship, str):
template['relationship']
else:
template[self.TYPE]
except KeyError:
ExceptionCollector.appendException(
MissingRequiredFieldError(
what='Template "%s"' % self.name, required=self.TYPE))
def _common_validate_field(self, schema, allowedlist, section):
for name in schema:
if name not in allowedlist:
ExceptionCollector.appendException(
UnknownFieldError(
what=('"%(section)s" of template "%(nodename)s"'
% {'section': section, 'nodename': self.name}),
field=name))
def _create_properties(self):
props = []
properties = self.type_definition.get_value(self.PROPERTIES,
self.entity_tpl) or {}
for name, value in properties.items():
props_def = self.type_definition.get_properties_def()
if props_def and name in props_def:
prop = Property(name, value,
props_def[name].schema, self.custom_def)
props.append(prop)
for p in self.type_definition.get_properties_def_objects():
if p.default is not None and p.name not in properties.keys():
prop = Property(p.name, p.default, p.schema, self.custom_def)
props.append(prop)
return props
def _create_interfaces(self):
interfaces = []
type_interfaces = None
if isinstance(self.type_definition, RelationshipType):
if isinstance(self.entity_tpl, dict):
if self.INTERFACES in self.entity_tpl:
type_interfaces = self.entity_tpl[self.INTERFACES]
else:
for rel_def, value in self.entity_tpl.items():
if rel_def != 'type':
rel_def = self.entity_tpl.get(rel_def)
rel = None
if isinstance(rel_def, dict):
rel = rel_def.get('relationship')
if rel:
if self.INTERFACES in rel:
type_interfaces = rel[self.INTERFACES]
break
else:
type_interfaces = self.type_definition.get_value(self.INTERFACES,
self.entity_tpl)
if type_interfaces:
for interface_type, value in type_interfaces.items():
for op, op_def in value.items():
iface = InterfacesDef(self.type_definition,
interfacetype=interface_type,
node_template=self,
name=op,
value=op_def)
interfaces.append(iface)
return interfaces
def get_capability(self, name):
"""Provide named capability
:param name: name of capability
:return: capability object if found, None otherwise
"""
caps = self.get_capabilities()
if caps and name in caps.keys():
return caps[name]
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