# Copyright (c) 2015 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.attributes import ApplicationNamespace from kmip.core.attributes import ObjectType from kmip.core.enums import Tags from kmip.core.messages.contents import Operation from kmip.core.misc import QueryFunction from kmip.core.misc import ServerInformation from kmip.core.misc import VendorIdentification from kmip.core.objects import ExtensionInformation from kmip.core.primitives import Struct from kmip.core.utils import BytearrayStream class QueryRequestPayload(Struct): """ A request payload for the Query operation. The payload contains a list of query functions that the KMIP server should respond to. See Section 4.25 of the KMIP 1.1 specification for more information. Attributes: query_functions: A list of QueryFunction enumerations. """ def __init__(self, query_functions=None): """ Construct a QueryRequestPayload object. Args: query_functions (list): A list of QueryFunction enumerations. """ super(QueryRequestPayload, self).__init__(Tags.REQUEST_PAYLOAD) if query_functions is None: self.query_functions = list() else: self.query_functions = query_functions self.validate() def read(self, istream): """ Read the data encoding the QueryRequestPayload 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(QueryRequestPayload, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) while(self.is_tag_next(Tags.QUERY_FUNCTION, tstream)): query_function = QueryFunction() query_function.read(tstream) self.query_functions.append(query_function) self.is_oversized(tstream) self.validate() def write(self, ostream): """ Write the data encoding the QueryRequestPayload 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() for query_function in self.query_functions: query_function.write(tstream) self.length = tstream.length() super(QueryRequestPayload, self).write(ostream) ostream.write(tstream.buffer) def validate(self): """ Error check the attributes of the QueryRequestPayload object. """ self.__validate() def __validate(self): if isinstance(self.query_functions, list): for i in xrange(len(self.query_functions)): query_function = self.query_functions[i] if not isinstance(query_function, QueryFunction): msg = "invalid query function ({0} in list)".format(i) msg += "; expected {0}, received {1}".format( QueryFunction, query_function) raise TypeError(msg) else: msg = "invalid query functions list" msg += "; expected {0}, received {1}".format( list, self.query_functions) raise TypeError(msg) class QueryResponsePayload(Struct): """ A response payload for the Query operation. The payload contains different sets of responses that the KMIP server provides in response to the initial Query request. See Section 4.25 of the KMIP 1.1 specification for more information. Attributes: operations: A list of Operations supported by the server. object_types: A list of ObjectTypes supported by the server. vendor_identification: A string identifying the server vendor. server_information: A structure containing vendor-specific fields and substructures. application_namespaces: A list of application namespaces supported by the server. extension_information: A list of ExtensionInformation objects detailing Objects supported by the server with ItemTag values in the Extensions range. """ def __init__(self, operations=None, object_types=None, vendor_identification=None, server_information=None, application_namespaces=None, extension_information=None): """ Construct a QueryResponsePayload object. Args: operations (list): A list of Operations supported by the server. object_types (list): A list of ObjectTypes supported by the server. vendor_identification (VendorIdentification): A string identifying the server vendor. server_information (ServerInformation): A structure containing vendor-specific fields and substructures. application_namespaces (list): A list of application namespaces supported by the server. extension_information (list): A list of ExtensionInformation objects detailing Objects supported by the server with ItemTag values in the Extensions range. """ super(QueryResponsePayload, self).__init__(Tags.RESPONSE_PAYLOAD) if operations is None: self.operations = list() else: self.operations = operations if object_types is None: self.object_types = list() else: self.object_types = object_types self.vendor_identification = vendor_identification self.server_information = server_information if application_namespaces is None: self.application_namespaces = list() else: self.application_namespaces = application_namespaces if extension_information is None: self.extension_information = list() else: self.extension_information = extension_information self.validate() def read(self, istream): """ Read the data encoding the QueryResponsePayload 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(QueryResponsePayload, self).read(istream) tstream = BytearrayStream(istream.read(self.length)) while(self.is_tag_next(Tags.OPERATION, tstream)): operation = Operation() operation.read(tstream) self.operations.append(operation) while(self.is_tag_next(Tags.OBJECT_TYPE, tstream)): object_type = ObjectType() object_type.read(tstream) self.object_types.append(object_type) if self.is_tag_next(Tags.VENDOR_IDENTIFICATION, tstream): self.vendor_identification = VendorIdentification() self.vendor_identification.read(tstream) if self.is_tag_next(Tags.SERVER_INFORMATION, tstream): self.server_information = ServerInformation() self.server_information.read(tstream) while(self.is_tag_next(Tags.APPLICATION_NAMESPACE, tstream)): application_namespace = ApplicationNamespace() application_namespace.read(tstream) self.application_namespaces.append(application_namespace) while(self.is_tag_next(Tags.EXTENSION_INFORMATION, tstream)): extension_information = ExtensionInformation() extension_information.read(tstream) self.extension_information.append(extension_information) self.is_oversized(tstream) self.validate() def write(self, ostream): """ Write the data encoding the QueryResponsePayload 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() for operation in self.operations: operation.write(tstream) for object_type in self.object_types: object_type.write(tstream) if self.vendor_identification is not None: self.vendor_identification.write(tstream) if self.server_information is not None: self.server_information.write(tstream) for application_namespace in self.application_namespaces: application_namespace.write(tstream) for extension_information in self.extension_information: extension_information.write(tstream) self.length = tstream.length() super(QueryResponsePayload, self).write(ostream) ostream.write(tstream.buffer) def validate(self): """ Error check the attributes of the QueryRequestPayload object. """ self.__validate() def __validate(self): # TODO (peter-hamilton) Add separate validate_list function for this if isinstance(self.operations, list): for i in xrange(len(self.operations)): operation = self.operations[i] if not isinstance(operation, Operation): msg = "invalid operation ({0} in list)".format(i) msg += "; expected {0}, received {1}".format( Operation, operation) raise TypeError(msg) else: msg = "invalid operations list" msg += "; expected {0}, received {1}".format( list, self.operations) raise TypeError(msg) if isinstance(self.object_types, list): for i in xrange(len(self.object_types)): object_type = self.object_types[i] if not isinstance(object_type, ObjectType): msg = "invalid object type ({0} in list)".format(i) msg += "; expected {0}, received {1}".format( ObjectType, object_type) raise TypeError(msg) else: msg = "invalid object types list" msg += "; expected {0}, received {1}".format( list, self.object_types) raise TypeError(msg) if self.vendor_identification is not None: if not isinstance(self.vendor_identification, VendorIdentification): msg = "invalid vendor identification" msg += "; expected {0}, received {1}".format( VendorIdentification, self.vendor_identification) raise TypeError(msg) if self.server_information is not None: if not isinstance(self.server_information, ServerInformation): msg = "invalid server information" msg += "; expected {0}, received {1}".format( ServerInformation, self.server_information) raise TypeError(msg) if isinstance(self.application_namespaces, list): for i in xrange(len(self.application_namespaces)): application_namespace = self.application_namespaces[i] if not isinstance(application_namespace, ApplicationNamespace): msg = "invalid application namespace ({0} in list)".format( i) msg += "; expected {0}, received {1}".format( ApplicationNamespace, application_namespace) raise TypeError(msg) else: msg = "invalid application namespaces list" msg += "; expected {0}, received {1}".format( list, self.application_namespaces) raise TypeError(msg) if isinstance(self.extension_information, list): for i in xrange(len(self.extension_information)): extension_information = self.extension_information[i] if not isinstance(extension_information, ExtensionInformation): msg = "invalid extension information ({0} in list)".format( i) msg += "; expected {0}, received {1}".format( ExtensionInformation, extension_information) raise TypeError(msg) else: msg = "invalid extension information list" msg += "; expected {0}, received {1}".format( list, self.extension_information) raise TypeError(msg)