# 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. import six from kmip.core import enums from kmip.core import exceptions from kmip.core import objects from kmip.core import primitives from kmip.core import utils from kmip.core.messages.payloads import base class GetAttributesRequestPayload(base.RequestPayload): """ A request payload for the GetAttributes operation. The payload contains the ID of the managed object the attributes should belong to, along with a list of attribute names for the attributes that should be returned in the response. If the ID is omitted, the server will use the ID placeholder by default. If the list of attribute names is omitted, all object attributes will be returned. There should be no duplicates in the attribute name list. Attributes: unique_identifier: The unique ID of the managed object with which the retrieved attributes should be associated. attribute_names: A list of strings identifying the names of the attributes associated with the managed object. """ def __init__(self, unique_identifier=None, attribute_names=None): """ Construct a GetAttributes request payload. Args: unique_identifier (string): The ID of the managed object with which the retrieved attributes should be associated. Optional, defaults to None. attribute_names: A list of strings identifying the names of the attributes associated with the managed object. Optional, defaults to None. """ super(GetAttributesRequestPayload, self).__init__() self._unique_identifier = None self._attribute_names = list() self.unique_identifier = unique_identifier self.attribute_names = attribute_names @property def unique_identifier(self): if self._unique_identifier: return self._unique_identifier.value else: return self._unique_identifier @unique_identifier.setter def unique_identifier(self, value): if value is None: self._unique_identifier = None elif isinstance(value, six.string_types): self._unique_identifier = primitives.TextString( value=value, tag=enums.Tags.UNIQUE_IDENTIFIER ) else: raise TypeError("Unique identifier must be a string.") @property def attribute_names(self): if self._attribute_names: names = list() for attribute_name in self._attribute_names: names.append(attribute_name.value) return names else: return self._attribute_names @attribute_names.setter def attribute_names(self, value): if value is None: self._attribute_names = list() elif isinstance(value, list): names = list() for i in range(len(value)): name = value[i] if not isinstance(name, six.string_types): raise TypeError( "Attribute names must be a list of strings; " "item {0} has type {1}.".format(i + 1, type(name)) ) if name not in names: names.append(name) self._attribute_names = list() for name in names: self._attribute_names.append( primitives.TextString( value=name, tag=enums.Tags.ATTRIBUTE_NAME ) ) else: raise TypeError("Attribute names must be a list of strings.") def read(self, input_buffer, kmip_version=enums.KMIPVersion.KMIP_1_0): """ Read the data encoding the GetAttributes request payload and decode it into its constituent parts. Args: input_buffer (stream): A data stream containing encoded object data, supporting a read method; usually a BytearrayStream object. kmip_version (KMIPVersion): An enumeration defining the KMIP version with which the object will be decoded. Optional, defaults to KMIP 1.0. Raises: InvalidKmipEncoding: Raised if an invalid type is found for the AttributeReference encoding for KMIP 2.0+ encodings. """ super(GetAttributesRequestPayload, self).read( input_buffer, kmip_version=kmip_version ) local_buffer = utils.BytearrayStream(input_buffer.read(self.length)) if self.is_tag_next(enums.Tags.UNIQUE_IDENTIFIER, local_buffer): self._unique_identifier = primitives.TextString( tag=enums.Tags.UNIQUE_IDENTIFIER ) self._unique_identifier.read( local_buffer, kmip_version=kmip_version ) else: self._unique_identifier = None names = list() if kmip_version < enums.KMIPVersion.KMIP_2_0: while self.is_tag_next(enums.Tags.ATTRIBUTE_NAME, local_buffer): name = primitives.TextString(tag=enums.Tags.ATTRIBUTE_NAME) name.read(local_buffer, kmip_version=kmip_version) names.append(name) self._attribute_names = names else: while self.is_tag_next( enums.Tags.ATTRIBUTE_REFERENCE, local_buffer ): if self.is_type_next(enums.Types.STRUCTURE, local_buffer): reference = objects.AttributeReference() reference.read(local_buffer, kmip_version=kmip_version) names.append( primitives.TextString( value=reference.attribute_name, tag=enums.Tags.ATTRIBUTE_NAME ) ) elif self.is_type_next(enums.Types.ENUMERATION, local_buffer): reference = primitives.Enumeration( enums.Tags, tag=enums.Tags.ATTRIBUTE_REFERENCE ) reference.read(local_buffer, kmip_version=kmip_version) name = enums.convert_attribute_tag_to_name(reference.value) names.append( primitives.TextString( value=name, tag=enums.Tags.ATTRIBUTE_NAME ) ) else: raise exceptions.InvalidKmipEncoding( "The GetAttributes request payload encoding contains " "an invalid AttributeReference type." ) self._attribute_names = names self.is_oversized(local_buffer) def write(self, output_buffer, kmip_version=enums.KMIPVersion.KMIP_1_0): """ Write the data encoding the GetAttributes request payload to a stream. Args: output_buffer (stream): A data stream in which to encode object data, supporting a write method; usually a BytearrayStream object. kmip_version (KMIPVersion): An enumeration defining the KMIP version with which the object will be encoded. Optional, defaults to KMIP 1.0. """ local_buffer = utils.BytearrayStream() if self._unique_identifier: self._unique_identifier.write( local_buffer, kmip_version=kmip_version ) if kmip_version < enums.KMIPVersion.KMIP_2_0: for attribute_name in self._attribute_names: attribute_name.write(local_buffer, kmip_version=kmip_version) else: # NOTE (ph) This approach simplifies backwards compatible issues # but limits easy support for using AttributeReference # structures going forward, specifically limiting the # use of VendorIdentification for custom attributes. # If custom attributes need to be retrieved using # the GetAttributes operation for KMIP 2.0 applications # this code will need to change. for attribute_name in self._attribute_names: t = enums.convert_attribute_name_to_tag(attribute_name.value) e = primitives.Enumeration( enums.Tags, value=t, tag=enums.Tags.ATTRIBUTE_REFERENCE ) e.write(local_buffer, kmip_version=kmip_version) self.length = local_buffer.length() super(GetAttributesRequestPayload, self).write( output_buffer, kmip_version=kmip_version ) output_buffer.write(local_buffer.buffer) def __repr__(self): unique_identifier = "unique_identifier={0}".format( self.unique_identifier ) attribute_names = "attribute_names={0}".format(self.attribute_names) return "GetAttributesRequestPayload({0}, {1})".format( unique_identifier, attribute_names ) def __str__(self): return str({ 'unique_identifier': self.unique_identifier, 'attribute_names': self.attribute_names }) def __eq__(self, other): if isinstance(other, GetAttributesRequestPayload): if self.unique_identifier == other.unique_identifier: if set(self.attribute_names) == set(other.attribute_names): return True else: return False else: return False else: return NotImplemented def __ne__(self, other): if isinstance(other, GetAttributesRequestPayload): return not self.__eq__(other) else: return NotImplemented class GetAttributesResponsePayload(base.ResponsePayload): """ A response payload for the GetAttributes operation. The payload will contain the ID of the managed object with which the attributes are associated. It will also contain a list of attributes associated with the aforementioned managed object. Attributes: unique_identifier: The unique ID of the managed object with which the retrieved attributes should be associated. attributes: The list of attributes associated with managed object identified by the unique identifier above. """ def __init__(self, unique_identifier=None, attributes=None): """ Construct a GetAttributes response payload. Args: unique_identifier (string): The ID of the managed object with which the retrieved attributes should be associated. Optional, defaults to None. attributes (list): A list of attribute structures associated with the managed object. Optional, defaults to None. """ super(GetAttributesResponsePayload, self).__init__() self._unique_identifier = None self._attributes = list() self.unique_identifier = unique_identifier self.attributes = attributes @property def unique_identifier(self): if self._unique_identifier: return self._unique_identifier.value else: return self._unique_identifier @unique_identifier.setter def unique_identifier(self, value): if value is None: self._unique_identifier = None elif isinstance(value, six.string_types): self._unique_identifier = primitives.TextString( value=value, tag=enums.Tags.UNIQUE_IDENTIFIER ) else: raise TypeError("Unique identifier must be a string.") @property def attributes(self): return self._attributes @attributes.setter def attributes(self, value): if value is None: self._attributes = list() elif isinstance(value, list): for i in range(len(value)): attribute = value[i] if not isinstance(attribute, objects.Attribute): raise TypeError( "Attributes must be a list of attribute objects; " "item {0} has type {1}.".format(i + 1, type(attribute)) ) self._attributes = value else: raise TypeError("Attributes must be a list of attribute objects.") def read(self, input_buffer, kmip_version=enums.KMIPVersion.KMIP_1_0): """ Read the data encoding the GetAttributes response payload and decode it into its constituent parts. Args: input_buffer (stream): A data stream containing encoded object data, supporting a read method; usually a BytearrayStream object. kmip_version (KMIPVersion): An enumeration defining the KMIP version with which the object will be decoded. Optional, defaults to KMIP 1.0. """ super(GetAttributesResponsePayload, self).read( input_buffer, kmip_version=kmip_version ) local_buffer = utils.BytearrayStream(input_buffer.read(self.length)) if self.is_tag_next(enums.Tags.UNIQUE_IDENTIFIER, local_buffer): unique_identifier = primitives.TextString( tag=enums.Tags.UNIQUE_IDENTIFIER ) unique_identifier.read(local_buffer, kmip_version=kmip_version) self.unique_identifier = unique_identifier.value else: raise exceptions.InvalidKmipEncoding( "The GetAttributes response payload encoding is missing the " "unique identifier." ) if kmip_version < enums.KMIPVersion.KMIP_2_0: self._attributes = list() while self.is_tag_next(enums.Tags.ATTRIBUTE, local_buffer): attribute = objects.Attribute() attribute.read(local_buffer, kmip_version=kmip_version) self._attributes.append(attribute) else: if self.is_tag_next(enums.Tags.ATTRIBUTES, local_buffer): attributes = objects.Attributes() attributes.read(local_buffer, kmip_version=kmip_version) # TODO (ph) Add a new utility to avoid using TemplateAttributes temp_attr = objects.convert_attributes_to_template_attribute( attributes ) self._attributes = temp_attr.attributes else: raise exceptions.InvalidKmipEncoding( "The GetAttributes response payload encoding is missing " "the attributes structure." ) self.is_oversized(local_buffer) def write(self, output_buffer, kmip_version=enums.KMIPVersion.KMIP_1_0): """ Write the data encoding the GetAttributes response payload to a stream. Args: output_buffer (stream): A data stream in which to encode object data, supporting a write method; usually a BytearrayStream object. kmip_version (KMIPVersion): An enumeration defining the KMIP version with which the object will be encoded. Optional, defaults to KMIP 1.0. """ local_buffer = utils.BytearrayStream() if self._unique_identifier: self._unique_identifier.write( local_buffer, kmip_version=kmip_version ) else: raise exceptions.InvalidField( "The GetAttributes response payload is missing the unique " "identifier field." ) if kmip_version < enums.KMIPVersion.KMIP_2_0: for attribute in self._attributes: attribute.write(local_buffer, kmip_version=kmip_version) else: if self._attributes: # TODO (ph) Add a new utility to avoid using TemplateAttributes template_attribute = objects.TemplateAttribute( attributes=self.attributes ) attributes = objects.convert_template_attribute_to_attributes( template_attribute ) attributes.write(local_buffer, kmip_version=kmip_version) else: raise exceptions.InvalidField( "The GetAttributes response payload is missing the " "attributes list." ) self.length = local_buffer.length() super(GetAttributesResponsePayload, self).write( output_buffer, kmip_version=kmip_version ) output_buffer.write(local_buffer.buffer) def __repr__(self): unique_identifier = "unique_identifier={0}".format( self.unique_identifier ) names = "attributes={0}".format(self.attributes) return "GetAttributesResponsePayload({0}, {1})".format( unique_identifier, names ) def __str__(self): return str({ 'unique_identifier': self.unique_identifier, 'attributes': self.attributes }) def __eq__(self, other): if isinstance(other, GetAttributesResponsePayload): if self.unique_identifier != other.unique_identifier: return False if len(self._attributes) != len(other._attributes): return False for i in range(len(self._attributes)): a = self._attributes[i] b = other._attributes[i] if a != b: return False return True else: return NotImplemented def __ne__(self, other): if isinstance(other, GetAttributesResponsePayload): return not self.__eq__(other) else: return NotImplemented