# Copyright (c) 2014 The Johns Hopkins University/Applied Physics Laboratory # All Rights Reserved. # # 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 six.moves import xrange from kmip.core import attributes from kmip.core.attributes import CryptographicParameters from kmip.core.factories.attribute_values import AttributeValueFactory from kmip.core import enums from kmip.core.enums import AttributeType from kmip.core.enums import Tags from kmip.core.enums import Types from kmip.core.enums import CredentialType from kmip.core.errors import ErrorStrings from kmip.core.misc import KeyFormatType from kmip.core.primitives import Struct from kmip.core.primitives import TextString from kmip.core.primitives import ByteString from kmip.core.primitives import Integer from kmip.core.primitives import Enumeration from kmip.core.utils import BytearrayStream # 2.1 # 2.1.1 class Attribute(Struct): class AttributeName(TextString): def __init__(self, value=None): super(self.__class__, self).__init__(value, Tags.ATTRIBUTE_NAME) class AttributeIndex(Integer): def __init__(self, value=None): super(self.__class__, self).__init__(value, Tags.ATTRIBUTE_INDEX) def __init__(self, attribute_name=None, attribute_index=None, attribute_value=None): super(self.__class__, self).__init__(tag=Tags.ATTRIBUTE) self.value_factory = AttributeValueFactory() self.attribute_name = attribute_name self.attribute_index = attribute_index self.attribute_value = attribute_value if attribute_value is not None: attribute_value.tag = Tags.ATTRIBUTE_VALUE def read(self, istream): super(self.__class__, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) # Read the name of the attribute self.attribute_name = Attribute.AttributeName() self.attribute_name.read(tstream) # Read the attribute index if it is next if self.is_tag_next(Tags.ATTRIBUTE_INDEX, tstream): self.attribute_index = Attribute.AttributeIndex() self.attribute_index.read(tstream) # Lookup the attribute class that belongs to the attribute name name = self.attribute_name.value enum_name = name.replace('.', '_').replace(' ', '_').upper() enum_type = None try: enum_type = AttributeType[enum_name] except KeyError: # Likely custom attribute, pass raw name string as attribute type enum_type = name value = self.value_factory.create_attribute_value(enum_type, None) self.attribute_value = value self.attribute_value.tag = Tags.ATTRIBUTE_VALUE self.attribute_value.read(tstream) self.is_oversized(tstream) def write(self, ostream): tstream = BytearrayStream() self.attribute_name.write(tstream) if self.attribute_index is not None: self.attribute_index.write(tstream) self.attribute_value.write(tstream) # Write the length and value of the attribute self.length = tstream.length() super(self.__class__, self).write(ostream) ostream.write(tstream.buffer) def __eq__(self, other): if isinstance(other, Attribute): if self.attribute_name != other.attribute_name: return False elif self.attribute_index != other.attribute_index: return False elif self.attribute_value != other.attribute_value: return False else: return True else: return NotImplemented def __ne__(self, other): return not self.__eq__(other) # 2.1.2 class Credential(Struct): class CredentialType(Enumeration): ENUM_TYPE = CredentialType def __init__(self, value=None): super(self.__class__, self).__init__(value, Tags.CREDENTIAL_TYPE) class UsernamePasswordCredential(Struct): class Username(TextString): def __init__(self, value=None): super(self.__class__, self).__init__(value, Tags.USERNAME) class Password(TextString): def __init__(self, value=None): super(self.__class__, self).__init__(value, Tags.PASSWORD) def __init__(self, username=None, password=None): super(self.__class__, self).__init__(tag=Tags.CREDENTIAL_VALUE) self.username = username self.password = password self.validate() def read(self, istream): super(self.__class__, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) # Read the username of the credential self.username = self.Username() self.username.read(tstream) # Read the password if it is next if self.is_tag_next(Tags.PASSWORD, tstream): self.password = self.Password() self.password.read(tstream) self.is_oversized(tstream) self.validate() def write(self, ostream): tstream = BytearrayStream() self.username.write(tstream) if self.password is not None: self.password.write(tstream) # Write the length and value of the credential self.length = tstream.length() super(self.__class__, self).write(ostream) ostream.write(tstream.buffer) def validate(self): pass class DeviceCredential(Struct): class DeviceSerialNumber(TextString): def __init__(self, value=None): super(Credential.DeviceCredential.DeviceSerialNumber, self).\ __init__(value, Tags.DEVICE_SERIAL_NUMBER) class Password(TextString): def __init__(self, value=None): super(Credential.DeviceCredential.Password, self).\ __init__(value, Tags.PASSWORD) class DeviceIdentifier(TextString): def __init__(self, value=None): super(Credential.DeviceCredential.DeviceIdentifier, self).\ __init__(value, Tags.DEVICE_IDENTIFIER) class NetworkIdentifier(TextString): def __init__(self, value=None): super(Credential.DeviceCredential.NetworkIdetifier, self).\ __init__(value, Tags.NETWORK_IDENTIFIER) class MachineIdentifier(TextString): def __init__(self, value=None): super(Credential.DeviceCredential.MachineIdentifier, self).\ __init__(value, Tags.MACHINE_IDENTIFIER) class MediaIdentifier(TextString): def __init__(self, value=None): super(Credential.DeviceCredential.MediaIdentifier, self).\ __init__(value, Tags.MEDIA_IDENTIFIER) def __init__(self, device_serial_number=None, password=None, device_identifier=None, network_identifier=None, machine_identifier=None, media_identifier=None): super(self.__class__, self).__init__(tag=Tags.CREDENTIAL_VALUE) super.device_serial_number = device_serial_number super.password = password super.device_identifier = device_identifier super.network_identifier = network_identifier super.machine_identifier = machine_identifier super.media_identifier = media_identifier def read(self, istream): super(self.__class__, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) # Read the password if it is next if self.is_tag_next(Tags.DEVICE_SERIAL_NUMBER, tstream): self.device_serial_number = self.DeviceSerialNumber() self.device_serial_number.read(tstream) # Read the password if it is next if self.is_tag_next(Tags.PASSWORD, tstream): self.password = self.Password() self.password.read(tstream) # Read the password if it is next if self.is_tag_next(Tags.DEVICE_IDENTIFIER, tstream): self.device_identifier = self.DeviceIdentifier() self.device_identifier.read(tstream) # Read the password if it is next if self.is_tag_next(Tags.NETWORK_IDENTIFIER, tstream): self.network_identifier = self.NetworkIdentifier() self.network_identifier.read(tstream) # Read the password if it is next if self.is_tag_next(Tags.MACHINE_IDENTIFIER, tstream): self.machine_identifier = self.MachineIdentifier() self.machine_identifier.read(tstream) # Read the password if it is next if self.is_tag_next(Tags.MEDIA_IDENTIFIER, tstream): self.media_identifier = self.MediaIdentifier() self.media_identifier.read(tstream) self.is_oversized(tstream) self.validate() def write(self, ostream): tstream = BytearrayStream() if self.device_serial_number is not None: self.device_serial_number.write(tstream) if self.password is not None: self.password.write(tstream) if self.device_identifier is not None: self.device_identifier.write(tstream) if self.network_identifier is not None: self.network_identifier.write(tstream) if self.machine_identifier is not None: self.machine_identifier.write(tstream) if self.media_identifier is not None: self.media_identifier.write(tstream) # Write the length and value of the credential self.length = tstream.length() super(self.__class__, self).write(ostream) ostream.write(tstream.buffer) def validate(self): pass def __init__(self, credential_type=None, credential_value=None): super(self.__class__, self).__init__(tag=Tags.CREDENTIAL) self.credential_type = credential_type self.credential_value = credential_value def read(self, istream): super(self.__class__, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) # Read the type of the credential self.credential_type = self.CredentialType() self.credential_type.read(tstream) # Use the type to determine what credential value to read if self.credential_type.enum is CredentialType.USERNAME_AND_PASSWORD: self.credential_value = self.UsernamePasswordCredential() elif self.credential_type.enum is CredentialType.DEVICE: self.credential_value = self.DeviceCredential() else: # TODO (peter-hamilton) Use more descriptive error here raise NotImplementedError() self.credential_value.read(tstream) self.is_oversized(tstream) self.validate() def write(self, ostream): tstream = BytearrayStream() self.credential_type.write(tstream) self.credential_value.write(tstream) # Write the length and value of the credential self.length = tstream.length() super(self.__class__, self).write(ostream) ostream.write(tstream.buffer) def validate(self): pass # 2.1.3 class KeyBlock(Struct): class KeyCompressionType(Enumeration): ENUM_TYPE = enums.KeyCompressionType def __init__(self, value=None): super(self.__class__, self).__init__(value, Tags.KEY_COMPRESSION_TYPE) def __init__(self, key_format_type=None, key_compression_type=None, key_value=None, cryptographic_algorithm=None, cryptographic_length=None, key_wrapping_data=None): super(self.__class__, self).__init__(Tags.KEY_BLOCK) self.key_format_type = key_format_type self.key_compression_type = key_compression_type self.key_value = key_value self.cryptographic_algorithm = cryptographic_algorithm self.cryptographic_length = cryptographic_length self.key_wrapping_data = key_wrapping_data self.validate() def read(self, istream): super(self.__class__, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) self.key_format_type = KeyFormatType() self.key_format_type.read(tstream) if self.is_tag_next(Tags.KEY_COMPRESSION_TYPE, tstream): self.key_compression_type = KeyBlock.KeyCompressionType() self.key_compression_type.read(tstream) self.key_value = KeyValue() self.key_value.read(tstream) if self.is_tag_next(Tags.CRYPTOGRAPHIC_ALGORITHM, tstream): self.cryptographic_algorithm = attributes.CryptographicAlgorithm() self.cryptographic_algorithm.read(tstream) if self.is_tag_next(Tags.CRYPTOGRAPHIC_LENGTH, tstream): self.cryptographic_length = attributes.CryptographicLength() self.cryptographic_length.read(tstream) if self.is_tag_next(Tags.KEY_WRAPPING_DATA, tstream): self.key_wrapping_data = KeyWrappingData() self.key_wrapping_data.read(tstream) self.is_oversized(tstream) self.validate() def write(self, ostream): tstream = BytearrayStream() self.key_format_type.write(tstream) if self.key_compression_type is not None: self.key_compression_type.write(tstream) self.key_value.write(tstream) if self.cryptographic_algorithm is not None: self.cryptographic_algorithm.write(tstream) if self.cryptographic_length is not None: self.cryptographic_length.write(tstream) if self.key_wrapping_data is not None: self.key_wrapping_data.write(tstream) # Write the length and value of the credential self.length = tstream.length() super(self.__class__, self).write(ostream) ostream.write(tstream.buffer) def validate(self): self.__validate() def __validate(self): if self.key_format_type is not None: if type(self.key_format_type) is not KeyFormatType: member = 'KeyBlock.key_format_type' exp_type = KeyFormatType rcv_type = type(self.key_format_type) msg = ErrorStrings.BAD_EXP_RECV.format(member, 'type', exp_type, rcv_type) raise TypeError(msg) # 2.1.4 class KeyMaterial(ByteString): def __init__(self, value=None): super(self.__class__, self).__init__(value, Tags.KEY_MATERIAL) # TODO (peter-hamilton) Get rid of this and replace with a KeyMaterial factory. class KeyMaterialStruct(Struct): def __init__(self): super(KeyMaterialStruct, self).__init__(Tags.KEY_MATERIAL) self.data = BytearrayStream() self.validate() def read(self, istream): super(KeyMaterialStruct, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) self.data = BytearrayStream(tstream.read()) self.is_oversized(tstream) self.validate() def write(self, ostream): tstream = BytearrayStream() tstream.write(self.data.buffer) self.length = tstream.length() super(KeyMaterialStruct, self).write(ostream) ostream.write(tstream.buffer) def validate(self): self.__validate() def __validate(self): # NOTE (peter-hamilton): Intentional pass, no way to validate data. pass class KeyValue(Struct): def __init__(self, key_material=None, attributes=None): super(self.__class__, self).__init__(Tags.KEY_VALUE) if key_material is None: self.key_material = KeyMaterial() else: self.key_material = key_material if attributes is None: self.attributes = list() else: self.attributes = attributes self.validate() def read(self, istream): super(self.__class__, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) # TODO (peter-hamilton) Replace this with a KeyMaterial factory. if self.is_type_next(Types.STRUCTURE, tstream): self.key_material = KeyMaterialStruct() self.key_material.read(tstream) else: self.key_material = KeyMaterial() self.key_material.read(tstream) while self.is_tag_next(Tags.ATTRIBUTE, tstream): attribute = Attribute() attribute.read(tstream) self.attributes.append(attribute) self.is_oversized(tstream) self.validate() def write(self, ostream): tstream = BytearrayStream() self.key_material.write(tstream) for attribute in self.attributes: attribute.write(tstream) self.length = tstream.length() super(self.__class__, self).write(ostream) ostream.write(tstream.buffer) def validate(self): self.__validate() def __validate(self): # TODO (peter-hamilton) Replace with check against KeyMaterial factory. if not isinstance(self.key_material, KeyMaterial): msg = "invalid key material" msg += "; expected {0}, received {1}".format( KeyMaterial, self.key_material) raise TypeError(msg) if isinstance(self.attributes, list): for i in xrange(len(self.attributes)): attribute = self.attributes[i] if not isinstance(attribute, Attribute): msg = "invalid attribute ({0} in list)".format(i) msg += "; expected {0}, received {1}".format( Attribute, attribute) raise TypeError(msg) else: msg = "invalid attributes list" msg += "; expected {0}, received {1}".format( list, self.attributes) raise TypeError(msg) # 2.1.5 class WrappingMethod(Enumeration): ENUM_TYPE = enums.WrappingMethod def __init__(self, value=None): super(WrappingMethod, self).__init__(value, Tags.WRAPPING_METHOD) class EncodingOption(Enumeration): ENUM_TYPE = enums.EncodingOption def __init__(self, value=None): super(WrappingMethod, self).__init__(value, Tags.ENCODING_OPTION) class KeyInformation(Struct): def __init__(self, unique_identifier=None, cryptographic_parameters=None, tag=Tags.ENCRYPTION_KEY_INFORMATION): super(self.__class__, self).\ __init__(tag=Tags.ENCRYPTION_KEY_INFORMATION) self.unique_identifier = unique_identifier self.cryptographic_parameters = cryptographic_parameters self.validate() def read(self, istream): super(self.__class__, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) self.unique_identifier = attributes.UniqueIdentifier() self.unique_identifier.read(tstream) if self.is_tag_next(Tags.CRYPTOGRAPHIC_PARAMETERS, tstream): self.cryptographic_parameters = CryptographicParameters() self.cryptographic_parameters.read(tstream) self.is_oversized(tstream) self.validate() def write(self, ostream): tstream = BytearrayStream() self.unique_identifier.write(tstream) if self.cryptographic_parameters is not None: self.cryptographic_parameters.write(tstream) # Write the length and value of the template attribute self.length = tstream.length() super(self.__class__, self).write(ostream) ostream.write(tstream.buffer) def validate(self): self.__validate() def __validate(self): # TODO (peter-hamilton) Finish implementation. pass class EncryptionKeyInformation(KeyInformation): def __init__(self, unique_identifier=None, cryptographic_parameters=None, tag=Tags.ENCRYPTION_KEY_INFORMATION): super(self.__class__, self).\ __init__(unique_identifier, cryptographic_parameters, tag) def validate(self): self.__validate() def __validate(self): # TODO (peter-hamilton) Finish implementation. pass class MACSignatureKeyInformation(KeyInformation): def __init__(self, unique_identifier=None, cryptographic_parameters=None, tag=Tags.MAC_SIGNATURE_KEY_INFORMATION): super(self.__class__, self).\ __init__(unique_identifier, cryptographic_parameters, tag) def validate(self): self.__validate() def __validate(self): # TODO (peter-hamilton) Finish implementation. pass class KeyWrappingData(Struct): class MACSignature(ByteString): def __init__(self, value=None): super(self.__class__, self).__init__(value, Tags.MAC_SIGNATURE) class IVCounterNonce(ByteString): def __init__(self, value=None): super(self.__class__, self).__init__(value, Tags.IV_COUNTER_NONCE) def __init__(self, wrapping_method=None, encryption_key_information=None, mac_signature_key_information=None, mac_signature=None, iv_counter_nonce=None, encoding_option=None): super(self.__class__, self).__init__(Tags.KEY_WRAPPING_DATA) self.wrapping_method = wrapping_method self.encryption_key_information = encryption_key_information self.mac_signature_key_information = mac_signature_key_information self.mac_signature = mac_signature self.iv_counter_nonce = iv_counter_nonce self.encoding_option = encoding_option self.validate() def read(self, istream): super(self.__class__, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) self.wrapping_method = WrappingMethod() self.wrapping_method.read(tstream) if self.is_tag_next(Tags.ENCRYPTION_KEY_INFORMATION, tstream): self.encryption_key_information = EncryptionKeyInformation() self.encryption_key_information.read(tstream) if self.is_tag_next(Tags.MAC_SIGNATURE_KEY_INFORMATION, tstream): self.mac_signature_key_information = MACSignatureKeyInformation() self.mac_signature_key_information.read(tstream) if self.is_tag_next(Tags.MAC_SIGNATURE, tstream): self.mac_signature = KeyWrappingData.MACSignature() self.mac_signature.read(tstream) if self.is_tag_next(Tags.IV_COUNTER_NONCE, tstream): self.iv_counter_nonce = KeyWrappingData.IVCounterNonce() self.iv_counter_nonce.read(tstream) if self.is_tag_next(Tags.ENCODING_OPTION, tstream): self.encoding_option = EncodingOption() self.encoding_option.read(tstream) self.is_oversized(tstream) self.validate() def write(self, ostream): tstream = BytearrayStream() # Write the contents of the key wrapping data self.wrapping_method.write(tstream) if self.encryption_key_information is not None: self.encryption_key_information.write(tstream) if self.mac_signature_key_information is not None: self.mac_signature_key_information.write(tstream) if self.mac_signature is not None: self.mac_signature.write(tstream) if self.iv_counter_nonce is not None: self.iv_counter_nonce.write(tstream) if self.encoding_option is not None: self.encoding_option.write(tstream) # Write the length and value of the key wrapping data self.length = tstream.length() super(self.__class__, self).write(ostream) ostream.write(tstream.buffer) def validate(self): self.__validate() def __validate(self): # TODO (peter-hamilton) Finish implementation pass # 2.1.6 class KeyWrappingSpecification(Struct): class AttributeName(TextString): def __init__(self, value=None): super(self.__class__, self).__init__(value, Tags.ATTRIBUTE_NAME) def __init__(self, wrapping_method=None, encryption_key_information=None, mac_signature_key_information=None, attribute_name=None, encoding_option=None): super(self.__class__, self).\ __init__(tag=Tags.KEY_WRAPPING_SPECIFICATION) self.wrapping_method = wrapping_method self.encryption_key_information = encryption_key_information self.mac_signature_key_information = mac_signature_key_information self.attribute_name = attribute_name self.encoding_option = encoding_option def read(self, istream): super(self.__class__, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) self.wrapping_method = WrappingMethod() self.wrapping_method.read(tstream) if self.is_tag_next(Tags.ENCRYPTION_KEY_INFORMATION, tstream): self.encryption_key_information = EncryptionKeyInformation() self.encryption_key_information.read(tstream) if self.is_tag_next(Tags.MAC_SIGNATURE_KEY_INFORMATION, tstream): self.mac_signature_key_information = MACSignatureKeyInformation() self.mac_signature_key_information.read(tstream) if self.is_tag_next(Tags.ATTRIBUTE_NAME, tstream): self.attribute_name = KeyWrappingSpecification.AttributeName() self.attribute_name.read(tstream) if self.is_tag_next(Tags.ENCODING_OPTION, tstream): self.encoding_option = EncodingOption() self.encoding_option.read(tstream) self.is_oversized(tstream) self.validate() def write(self, ostream): tstream = BytearrayStream() # Write the contents of the key wrapping data self.wrapping_method.write(tstream) if self.encryption_key_information is not None: self.encryption_key_information.write(tstream) if self.mac_signature_key_information is not None: self.mac_signature_key_information.write(tstream) if self.attribute_name is not None: self.attribute_name.write(tstream) if self.encoding_option is not None: self.encoding_option.write(tstream) # Write the length and value of the key wrapping data self.length = tstream.length() super(self.__class__, self).write(ostream) ostream.write(tstream.buffer) def validate(self): self.__validate() def __validate(self): # TODO (peter-hamilton) Finish implementation. pass # 2.1.8 class TemplateAttribute(Struct): def __init__(self, names=None, attributes=None, tag=Tags.TEMPLATE_ATTRIBUTE): super(TemplateAttribute, self).__init__(tag) if names is None: self.names = list() else: self.names = names if attributes is None: self.attributes = list() else: self.attributes = attributes self.validate() def read(self, istream): super(TemplateAttribute, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) self.names = list() self.attributes = list() # Read the names of the template attribute, 0 or more while self.is_tag_next(Tags.NAME, tstream): name = attributes.Name() name.read(tstream) self.names.append(name) # Read the attributes of the template attribute, 0 or more while self.is_tag_next(Tags.ATTRIBUTE, tstream): attribute = Attribute() attribute.read(tstream) self.attributes.append(attribute) self.is_oversized(tstream) self.validate() def write(self, ostream): tstream = BytearrayStream() # Write the names and attributes of the template attribute for name in self.names: name.write(tstream) for attribute in self.attributes: attribute.write(tstream) # Write the length and value of the template attribute self.length = tstream.length() super(TemplateAttribute, self).write(ostream) ostream.write(tstream.buffer) def validate(self): self.__validate() def __validate(self): # TODO (peter-hamilton) Finish implementation. pass def __eq__(self, other): if isinstance(other, TemplateAttribute): if len(self.names) != len(other.names): return False if len(self.attributes) != len(other.attributes): return False for i in xrange(len(self.names)): a = self.names[i] b = other.names[i] if a != b: return False for i in xrange(len(self.attributes)): a = self.attributes[i] b = other.attributes[i] if a != b: return False return True else: return NotImplemented class CommonTemplateAttribute(TemplateAttribute): def __init__(self, names=None, attributes=None): super(CommonTemplateAttribute, self).__init__( names, attributes, Tags.COMMON_TEMPLATE_ATTRIBUTE) class PrivateKeyTemplateAttribute(TemplateAttribute): def __init__(self, names=None, attributes=None): super(PrivateKeyTemplateAttribute, self).__init__( names, attributes, Tags.PRIVATE_KEY_TEMPLATE_ATTRIBUTE) class PublicKeyTemplateAttribute(TemplateAttribute): def __init__(self, names=None, attributes=None): super(PublicKeyTemplateAttribute, self).__init__( names, attributes, Tags.PUBLIC_KEY_TEMPLATE_ATTRIBUTE) # 2.1.9 class ExtensionName(TextString): """ The name of an extended Object. A part of ExtensionInformation, specifically identifying an Object that is a custom vendor addition to the KMIP specification. See Section 2.1.9 of the KMIP 1.1 specification for more information. Attributes: value: The string data representing the extension name. """ def __init__(self, value=''): """ Construct an ExtensionName object. Args: value (str): The string data representing the extension name. Optional, defaults to the empty string. """ super(ExtensionName, self).__init__(value, Tags.EXTENSION_NAME) class ExtensionTag(Integer): """ The tag of an extended Object. A part of ExtensionInformation. See Section 2.1.9 of the KMIP 1.1 specification for more information. Attributes: value: The tag number identifying the extended object. """ def __init__(self, value=0): """ Construct an ExtensionTag object. Args: value (int): A number representing the extension tag. Often displayed in hex format. Optional, defaults to 0. """ super(ExtensionTag, self).__init__(value, Tags.EXTENSION_TAG) class ExtensionType(Integer): """ The type of an extended Object. A part of ExtensionInformation, specifically identifying the type of the Object in the specification extension. See Section 2.1.9 of the KMIP 1.1 specification for more information. Attributes: value: The type enumeration for the extended object. """ def __init__(self, value=None): """ Construct an ExtensionType object. Args: value (Types): A number representing a Types enumeration value, indicating the type of the extended Object. Optional, defaults to None. """ super(ExtensionType, self).__init__(value, Tags.EXTENSION_TYPE) class ExtensionInformation(Struct): """ A structure describing Objects defined in KMIP specification extensions. It is used specifically for Objects with Item Tag values in the Extensions range and appears in responses to Query requests for server extension information. See Sections 2.1.9 and 4.25 of the KMIP 1.1 specification for more information. Attributes: extension_name: The name of the extended Object. extension_tag: The tag of the extended Object. extension_type: The type of the extended Object. """ def __init__(self, extension_name=None, extension_tag=None, extension_type=None): """ Construct an ExtensionInformation object. Args: extension_name (ExtensionName): The name of the extended Object. extension_tag (ExtensionTag): The tag of the extended Object. extension_type (ExtensionType): The type of the extended Object. """ super(ExtensionInformation, self).__init__(Tags.EXTENSION_INFORMATION) if extension_name is None: self.extension_name = ExtensionName() else: self.extension_name = extension_name self.extension_tag = extension_tag self.extension_type = extension_type self.validate() def read(self, istream): """ Read the data encoding the ExtensionInformation object and decode it into its constituent parts. Args: istream (Stream): A data stream containing encoded object data, supporting a read method; usually a BytearrayStream object. """ super(ExtensionInformation, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) self.extension_name.read(tstream) if self.is_tag_next(Tags.EXTENSION_TAG, tstream): self.extension_tag = ExtensionTag() self.extension_tag.read(tstream) if self.is_tag_next(Tags.EXTENSION_TYPE, tstream): self.extension_type = ExtensionType() self.extension_type.read(tstream) self.is_oversized(tstream) self.validate() def write(self, ostream): """ Write the data encoding the ExtensionInformation object to a stream. Args: ostream (Stream): A data stream in which to encode object data, supporting a write method; usually a BytearrayStream object. """ tstream = BytearrayStream() self.extension_name.write(tstream) if self.extension_tag is not None: self.extension_tag.write(tstream) if self.extension_type is not None: self.extension_type.write(tstream) self.length = tstream.length() super(ExtensionInformation, self).write(ostream) ostream.write(tstream.buffer) def validate(self): """ Error check the attributes of the ExtensionInformation object. """ self.__validate() def __validate(self): if not isinstance(self.extension_name, ExtensionName): msg = "invalid extension name" msg += "; expected {0}, received {1}".format( ExtensionName, self.extension_name) raise TypeError(msg) if self.extension_tag is not None: if not isinstance(self.extension_tag, ExtensionTag): msg = "invalid extension tag" msg += "; expected {0}, received {1}".format( ExtensionTag, self.extension_tag) raise TypeError(msg) if self.extension_type is not None: if not isinstance(self.extension_type, ExtensionType): msg = "invalid extension type" msg += "; expected {0}, received {1}".format( ExtensionType, self.extension_type) raise TypeError(msg) def __eq__(self, other): if isinstance(other, ExtensionInformation): if self.extension_name != other.extension_name: return False elif self.extension_tag != other.extension_tag: return False elif self.extension_type != other.extension_type: return False else: return True else: return NotImplemented def __ne__(self, other): if isinstance(other, ExtensionInformation): return not (self == other) else: return NotImplemented def __repr__(self): name = "extension_name={0}".format(repr(self.extension_name)) tag = "extension_tag={0}".format(repr(self.extension_tag)) typ = "extension_type={0}".format(repr(self.extension_type)) return "ExtensionInformation({0}, {1}, {2})".format(name, tag, typ) def __str__(self): return repr(self) @classmethod def create(cls, extension_name=None, extension_tag=None, extension_type=None): """ Construct an ExtensionInformation object from provided extension values. Args: extension_name (str): The name of the extension. Optional, defaults to None. extension_tag (int): The tag number of the extension. Optional, defaults to None. extension_type (int): The type index of the extension. Optional, defaults to None. Returns: ExtensionInformation: The newly created set of extension information. Example: >>> x = ExtensionInformation.create('extension', 1, 1) >>> x.extension_name.value ExtensionName(value='extension') >>> x.extension_tag.value ExtensionTag(value=1) >>> x.extension_type.value ExtensionType(value=1) """ extension_name = ExtensionName(extension_name) extension_tag = ExtensionTag(extension_tag) extension_type = ExtensionType(extension_type) return ExtensionInformation( extension_name=extension_name, extension_tag=extension_tag, extension_type=extension_type)