# Copyright (c) 2016 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. import logging import six import sqlalchemy from sqlalchemy.orm import exc import threading import time import kmip from kmip.core import attributes from kmip.core import enums from kmip.core import exceptions from kmip.core.factories import secrets from kmip.core.messages import contents from kmip.core.messages import messages from kmip.core.messages.payloads import create from kmip.core.messages.payloads import create_key_pair from kmip.core.messages.payloads import destroy from kmip.core.messages.payloads import discover_versions from kmip.core.messages.payloads import get from kmip.core.messages.payloads import query from kmip.core.messages.payloads import register from kmip.core import misc from kmip.pie import factory from kmip.pie import objects from kmip.pie import sqltypes from kmip.services.server import policy from kmip.services.server.crypto import engine class KmipEngine(object): """ A KMIP request processor that acts as the core of the KmipServer. The KmipEngine contains the core application logic for the KmipServer. It processes all KMIP requests and maintains consistent state across client connections. Features that are not supported: * KMIP versions > 1.2 * Numerous operations, objects, and attributes. * User authentication * Batch processing options: UNDO * Asynchronous operations * Operation policies * Object archival * Key compression * Key wrapping * Key format conversions * Registration of empty managed objects (e.g., Private Keys) * Managed object state tracking * Managed object usage limit tracking and enforcement * Cryptographic usage mask enforcement per object type """ def __init__(self): """ Create a KmipEngine. """ self._logger = logging.getLogger('kmip.server.engine') self._cryptography_engine = engine.CryptographyEngine() self._data_store = sqlalchemy.create_engine( 'sqlite:////tmp/pykmip.database', echo=False ) sqltypes.Base.metadata.create_all(self._data_store) self._data_store_session_factory = sqlalchemy.orm.sessionmaker( bind=self._data_store ) self._lock = threading.RLock() self._id_placeholder = None self._protocol_versions = [ contents.ProtocolVersion.create(1, 2), contents.ProtocolVersion.create(1, 1), contents.ProtocolVersion.create(1, 0) ] self._protocol_version = self._protocol_versions[0] self._object_map = { enums.ObjectType.CERTIFICATE: objects.X509Certificate, enums.ObjectType.SYMMETRIC_KEY: objects.SymmetricKey, enums.ObjectType.PUBLIC_KEY: objects.PublicKey, enums.ObjectType.PRIVATE_KEY: objects.PrivateKey, enums.ObjectType.SPLIT_KEY: None, enums.ObjectType.TEMPLATE: None, enums.ObjectType.SECRET_DATA: objects.SecretData, enums.ObjectType.OPAQUE_DATA: objects.OpaqueObject } self._attribute_policy = policy.AttributePolicy(self._protocol_version) def _kmip_version_supported(supported): def decorator(function): def wrapper(self, *args, **kwargs): if float(str(self._protocol_version)) < float(supported): name = function.__name__ operation = ''.join( [x.capitalize() for x in name[9:].split('_')] ) raise exceptions.OperationNotSupported( "{0} is not supported by KMIP {1}".format( operation, self._protocol_version ) ) else: return function(self, *args, **kwargs) return wrapper return decorator def _synchronize(function): def decorator(self, *args, **kwargs): with self._lock: return function(self, *args, **kwargs) return decorator def _set_protocol_version(self, protocol_version): if protocol_version in self._protocol_versions: self._protocol_version = protocol_version self._attribute_policy = policy.AttributePolicy( self._protocol_version ) else: raise exceptions.InvalidMessage( "KMIP {0} is not supported by the server.".format( protocol_version ) ) def _verify_credential(self, request_credential, connection_credential): # TODO (peterhamilton) Add authentication support # 1. If present, verify user ID of connection_credential is valid user. # 2. If present, verify request_credential is valid credential. # 3. If both present, verify that they are compliant with each other. # 4. If neither present, set server to only allow Query operations. pass @_synchronize def process_request(self, request, credential=None): """ Process a KMIP request message. This routine is the main driver of the KmipEngine. It breaks apart and processes the request header, handles any message errors that may result, and then passes the set of request batch items on for processing. This routine is thread-safe, allowing multiple client connections to use the same KmipEngine. Args: request (RequestMessage): The request message containing the batch items to be processed. credential (Credential): A credential containing any identifying information about the client obtained from the client certificate. Optional, defaults to None. Returns: ResponseMessage: The response containing all of the results from the request batch items. """ header = request.request_header # Process the protocol version self._set_protocol_version(header.protocol_version) # Process the maximum response size max_response_size = None if header.maximum_response_size: max_response_size = header.maximum_response_size.value # Process the time stamp now = int(time.time()) if header.time_stamp: then = header.time_stamp.value if (now >= then) and ((now - then) < 60): self._logger.info("Received request at time: {0}".format( time.strftime( "%Y-%m-%d %H:%M:%S", time.gmtime(then) ) )) else: if now < then: self._logger.warning( "Received request with future timestamp. Received " "timestamp: {0}, Current timestamp: {1}".format( then, now ) ) raise exceptions.InvalidMessage( "Future request rejected by server." ) else: self._logger.warning( "Received request with old timestamp. Possible " "replay attack. Received timestamp: {0}, Current " "timestamp: {1}".format(then, now) ) raise exceptions.InvalidMessage( "Stale request rejected by server." ) else: self._logger.info("Received request at time: {0}".format( time.strftime( "%Y-%m-%d %H:%M:%S", time.gmtime(now) ) )) # Process the asynchronous indicator self.is_asynchronous = False if header.asynchronous_indicator is not None: self.is_asynchronous = header.asynchronous_indicator.value if self.is_asynchronous: raise exceptions.InvalidMessage( "Asynchronous operations are not supported." ) # Process the authentication credentials auth_credentials = header.authentication.credential self._verify_credential(auth_credentials, credential) # Process the batch error continuation option batch_error_option = enums.BatchErrorContinuationOption.STOP if header.batch_error_cont_option is not None: batch_error_option = header.batch_error_cont_option.value if batch_error_option == enums.BatchErrorContinuationOption.UNDO: raise exceptions.InvalidMessage( "Undo option for batch handling is not supported." ) # Process the batch order option batch_order_option = False if header.batch_order_option: batch_order_option = header.batch_order_option.value response_batch = self._process_batch( request.batch_items, batch_error_option, batch_order_option ) response = self._build_response( header.protocol_version, response_batch ) return response, max_response_size def _build_response(self, version, batch_items): header = messages.ResponseHeader( protocol_version=version, time_stamp=contents.TimeStamp(int(time.time())), batch_count=contents.BatchCount(len(batch_items)) ) message = messages.ResponseMessage( response_header=header, batch_items=batch_items ) return message def build_error_response(self, version, reason, message): """ Build a simple ResponseMessage with a single error result. Args: version (ProtocolVersion): The protocol version the response should be addressed with. reason (ResultReason): An enumeration classifying the type of error occurred. message (str): A string providing additional information about the error. Returns: ResponseMessage: The simple ResponseMessage containing a single error result. """ batch_item = messages.ResponseBatchItem( result_status=contents.ResultStatus( enums.ResultStatus.OPERATION_FAILED ), result_reason=contents.ResultReason(reason), result_message=contents.ResultMessage(message) ) return self._build_response(version, [batch_item]) def _process_batch(self, request_batch, batch_handling, batch_order): response_batch = list() self._data_session = self._data_store_session_factory() for batch_item in request_batch: error_occurred = False response_payload = None result_status = None result_reason = None result_message = None operation = batch_item.operation request_payload = batch_item.request_payload # Process batch item ID. if len(request_batch) > 1: if not batch_item.unique_batch_item_id: raise exceptions.InvalidMessage( "Batch item ID is undefined." ) # Process batch message extension. # TODO (peterhamilton) Add support for message extension handling. # 1. Extract the vendor identification and criticality indicator. # 2. If the indicator is True, raise an error. # 3. If the indicator is False, ignore the extension. # Process batch payload. try: response_payload = self._process_operation( operation.value, request_payload ) result_status = enums.ResultStatus.SUCCESS except exceptions.KmipError as e: error_occurred = True result_status = e.status result_reason = e.reason result_message = str(e) except Exception as e: self._logger.warning( "Error occurred while processing operation." ) self._logger.exception(e) error_occurred = True result_status = enums.ResultStatus.OPERATION_FAILED result_reason = enums.ResultReason.GENERAL_FAILURE result_message = ( "Operation failed. See the server logs for more " "information." ) # Compose operation result. result_status = contents.ResultStatus(result_status) if result_reason: result_reason = contents.ResultReason(result_reason) if result_message: result_message = contents.ResultMessage(result_message) batch_item = messages.ResponseBatchItem( operation=batch_item.operation, unique_batch_item_id=batch_item.unique_batch_item_id, result_status=result_status, result_reason=result_reason, result_message=result_message, response_payload=response_payload ) response_batch.append(batch_item) # Handle batch error if necessary. if error_occurred: if batch_handling == enums.BatchErrorContinuationOption.STOP: break return response_batch def _get_object_type(self, unique_identifier): try: object_type = self._data_session.query( objects.ManagedObject._object_type ).filter( objects.ManagedObject.unique_identifier == unique_identifier ).one()[0] except exc.NoResultFound as e: self._logger.warning( "Could not identify object type for object: {0}".format( unique_identifier ) ) self._logger.exception(e) raise exceptions.ItemNotFound( "Could not locate object: {0}".format(unique_identifier) ) except exc.MultipleResultsFound as e: self._logger.warning( "Multiple objects found for ID: {0}".format( unique_identifier ) ) raise e class_type = self._object_map.get(object_type) if class_type is None: name = object_type.name raise exceptions.InvalidField( "The {0} object type is not supported.".format( ''.join( [x.capitalize() for x in name.split('_')] ) ) ) return class_type def _build_core_object(self, obj): try: object_type = obj._object_type except Exception: raise exceptions.InvalidField( "Cannot build an unsupported object type." ) value = {} if object_type == enums.ObjectType.CERTIFICATE: value = { 'certificate_type': obj.certificate_type, 'certificate_value': obj.value } elif object_type == enums.ObjectType.SYMMETRIC_KEY: value = { 'cryptographic_algorithm': obj.cryptographic_algorithm, 'cryptographic_length': obj.cryptographic_length, 'key_format_type': obj.key_format_type, 'key_value': obj.value } elif object_type == enums.ObjectType.PUBLIC_KEY: value = { 'cryptographic_algorithm': obj.cryptographic_algorithm, 'cryptographic_length': obj.cryptographic_length, 'key_format_type': obj.key_format_type, 'key_value': obj.value } elif object_type == enums.ObjectType.PRIVATE_KEY: value = { 'cryptographic_algorithm': obj.cryptographic_algorithm, 'cryptographic_length': obj.cryptographic_length, 'key_format_type': obj.key_format_type, 'key_value': obj.value } elif object_type == enums.ObjectType.SECRET_DATA: value = { 'key_format_type': enums.KeyFormatType.OPAQUE, 'key_value': obj.value, 'secret_data_type': obj.data_type } elif object_type == enums.ObjectType.OPAQUE_DATA: value = { 'opaque_data_type': obj.opaque_type, 'opaque_data_value': obj.value } else: name = object_type.name raise exceptions.InvalidField( "The {0} object type is not supported.".format( ''.join( [x.capitalize() for x in name.split('_')] ) ) ) secret_factory = secrets.SecretFactory() return secret_factory.create(object_type, value) def _process_template_attribute(self, template_attribute): """ Given a kmip.core TemplateAttribute object, extract the attribute value data into a usable dictionary format. """ attributes = {} if len(template_attribute.names) > 0: raise exceptions.ItemNotFound( "Attribute templates are not supported." ) for attribute in template_attribute.attributes: name = attribute.attribute_name.value if not self._attribute_policy.is_attribute_supported(name): raise exceptions.InvalidField( "The {0} attribute is unsupported.".format(name) ) if self._attribute_policy.is_attribute_multivalued(name): values = attributes.get(name, list()) if (not attribute.attribute_index) and len(values) > 0: raise exceptions.InvalidField( "Attribute index missing from multivalued attribute." ) values.append(attribute.attribute_value) attributes.update([(name, values)]) else: if attribute.attribute_index: if attribute.attribute_index.value != 0: raise exceptions.InvalidField( "Non-zero attribute index found for " "single-valued attribute." ) value = attributes.get(name, None) if value: raise exceptions.IndexOutOfBounds( "Cannot set multiple instances of the " "{0} attribute.".format(name) ) else: attributes.update([(name, attribute.attribute_value)]) return attributes def _set_attributes_on_managed_object(self, managed_object, attributes): """ Given a kmip.pie object and a dictionary of attributes, attempt to set the attribute values on the object. """ for attribute_name, attribute_value in six.iteritems(attributes): object_type = managed_object._object_type if self._attribute_policy.is_attribute_applicable_to_object_type( attribute_name, object_type): self._set_attribute_on_managed_object( managed_object, (attribute_name, attribute_value) ) else: name = object_type.name raise exceptions.InvalidField( "Cannot set {0} attribute on {1} object.".format( attribute_name, ''.join([x.capitalize() for x in name.split('_')]) ) ) def _set_attribute_on_managed_object(self, managed_object, attribute): """ Set the attribute value on the kmip.pie managed object. """ attribute_name = attribute[0] attribute_value = attribute[1] if self._attribute_policy.is_attribute_multivalued(attribute_name): if attribute_name == 'Name': managed_object.names.extend( [x.name_value.value for x in attribute_value] ) for name in managed_object.names: if managed_object.names.count(name) > 1: raise exceptions.InvalidField( "Cannot set duplicate name values." ) else: # TODO (peterhamilton) Remove when all attributes are supported raise exceptions.InvalidField( "The {0} attribute is unsupported.".format(attribute_name) ) else: field = None value = attribute_value.value if attribute_name == 'Cryptographic Algorithm': field = 'cryptographic_algorithm' elif attribute_name == 'Cryptographic Length': field = 'cryptographic_length' elif attribute_name == 'Cryptographic Usage Mask': field = 'cryptographic_usage_masks' value = list() for e in enums.CryptographicUsageMask: if e.value & attribute_value.value: value.append(e) if field: existing_value = getattr(managed_object, field) if existing_value: if existing_value != value: raise exceptions.InvalidField( "Cannot overwrite the {0} attribute.".format( attribute_name ) ) else: setattr(managed_object, field, value) else: # TODO (peterhamilton) Remove when all attributes are supported raise exceptions.InvalidField( "The {0} attribute is unsupported.".format(attribute_name) ) def _process_operation(self, operation, payload): if operation == enums.Operation.CREATE: return self._process_create(payload) elif operation == enums.Operation.CREATE_KEY_PAIR: return self._process_create_key_pair(payload) elif operation == enums.Operation.REGISTER: return self._process_register(payload) elif operation == enums.Operation.GET: return self._process_get(payload) elif operation == enums.Operation.DESTROY: return self._process_destroy(payload) elif operation == enums.Operation.QUERY: return self._process_query(payload) elif operation == enums.Operation.DISCOVER_VERSIONS: return self._process_discover_versions(payload) else: raise exceptions.OperationNotSupported( "{0} operation is not supported by the server.".format( operation.name.title() ) ) @_kmip_version_supported('1.0') def _process_create(self, payload): self._logger.info("Processing operation: Create") object_type = payload.object_type.value template_attribute = payload.template_attribute if object_type != enums.ObjectType.SYMMETRIC_KEY: name = object_type.name raise exceptions.InvalidField( "Cannot create a {0} object with the Create operation.".format( ''.join([x.capitalize() for x in name.split('_')]) ) ) object_attributes = {} if template_attribute: object_attributes = self._process_template_attribute( template_attribute ) algorithm = object_attributes.get('Cryptographic Algorithm') if algorithm: algorithm = algorithm.value else: raise exceptions.InvalidField( "The cryptographic algorithm must be specified as an " "attribute." ) length = object_attributes.get('Cryptographic Length') if length: length = length.value else: # TODO (peterhamilton) The cryptographic length is technically not # required per the spec. Update the CryptographyEngine to accept a # None length, allowing it to pick the length dynamically. Default # to the strongest key size allowed for the algorithm type. raise exceptions.InvalidField( "The cryptographic length must be specified as an attribute." ) usage_mask = object_attributes.get('Cryptographic Usage Mask') if usage_mask is None: raise exceptions.InvalidField( "The cryptographic usage mask must be specified as an " "attribute." ) result = self._cryptography_engine.create_symmetric_key( algorithm, length ) managed_object = objects.SymmetricKey( algorithm, length, result.get('value') ) managed_object.names = [] self._set_attributes_on_managed_object( managed_object, object_attributes ) # TODO (peterhamilton) Set additional server-only attributes. self._data_session.add(managed_object) # NOTE (peterhamilton) SQLAlchemy will *not* assign an ID until # commit is called. This makes future support for UNDO problematic. self._data_session.commit() self._logger.info( "Created a SymmetricKey with ID: {0}".format( managed_object.unique_identifier ) ) response_payload = create.CreateResponsePayload( object_type=payload.object_type, unique_identifier=attributes.UniqueIdentifier( str(managed_object.unique_identifier) ), template_attribute=None ) self._id_placeholder = str(managed_object.unique_identifier) return response_payload @_kmip_version_supported('1.0') def _process_create_key_pair(self, payload): self._logger.info("Processing operation: CreateKeyPair") algorithm = None length = None # Process attribute sets public_key_attributes = {} private_key_attributes = {} common_attributes = {} if payload.public_key_template_attribute: public_key_attributes = self._process_template_attribute( payload.public_key_template_attribute ) if payload.private_key_template_attribute: private_key_attributes = self._process_template_attribute( payload.private_key_template_attribute ) if payload.common_template_attribute: common_attributes = self._process_template_attribute( payload.common_template_attribute ) # Propagate common attributes if not overridden by the public/private # attribute sets for key, value in six.iteritems(common_attributes): if key not in public_key_attributes.keys(): public_key_attributes.update([(key, value)]) if key not in private_key_attributes.keys(): private_key_attributes.update([(key, value)]) # Error check for required attributes. public_algorithm = public_key_attributes.get('Cryptographic Algorithm') if public_algorithm: public_algorithm = public_algorithm.value else: raise exceptions.InvalidField( "The cryptographic algorithm must be specified as an " "attribute for the public key." ) public_length = public_key_attributes.get('Cryptographic Length') if public_length: public_length = public_length.value else: # TODO (peterhamilton) The cryptographic length is technically not # required per the spec. Update the CryptographyEngine to accept a # None length, allowing it to pick the length dynamically. Default # to the strongest key size allowed for the algorithm type. raise exceptions.InvalidField( "The cryptographic length must be specified as an attribute " "for the public key." ) public_usage_mask = public_key_attributes.get( 'Cryptographic Usage Mask' ) if public_usage_mask is None: raise exceptions.InvalidField( "The cryptographic usage mask must be specified as an " "attribute for the public key." ) private_algorithm = private_key_attributes.get( 'Cryptographic Algorithm' ) if private_algorithm: private_algorithm = private_algorithm.value else: raise exceptions.InvalidField( "The cryptographic algorithm must be specified as an " "attribute for the private key." ) private_length = private_key_attributes.get('Cryptographic Length') if private_length: private_length = private_length.value else: # TODO (peterhamilton) The cryptographic length is technically not # required per the spec. Update the CryptographyEngine to accept a # None length, allowing it to pick the length dynamically. Default # to the strongest key size allowed for the algorithm type. raise exceptions.InvalidField( "The cryptographic length must be specified as an attribute " "for the private key." ) private_usage_mask = private_key_attributes.get( 'Cryptographic Usage Mask' ) if private_usage_mask is None: raise exceptions.InvalidField( "The cryptographic usage mask must be specified as an " "attribute for the private key." ) if public_algorithm == private_algorithm: algorithm = public_algorithm else: raise exceptions.InvalidField( "The public and private key algorithms must be the same." ) if public_length == private_length: length = public_length else: raise exceptions.InvalidField( "The public and private key lengths must be the same." ) public, private = self._cryptography_engine.create_asymmetric_key_pair( algorithm, length ) public_key = objects.PublicKey( algorithm, length, public.get('value'), public.get('format') ) private_key = objects.PrivateKey( algorithm, length, private.get('value'), private.get('format') ) public_key.names = [] private_key.names = [] self._set_attributes_on_managed_object( public_key, public_key_attributes ) self._set_attributes_on_managed_object( private_key, private_key_attributes ) # TODO (peterhamilton) Set additional server-only attributes. self._data_session.add(public_key) self._data_session.add(private_key) # NOTE (peterhamilton) SQLAlchemy will *not* assign an ID until # commit is called. This makes future support for UNDO problematic. self._data_session.commit() self._logger.info( "Created a PublicKey with ID: {0}".format( public_key.unique_identifier ) ) self._logger.info( "Created a PrivateKey with ID: {0}".format( private_key.unique_identifier ) ) response_payload = create_key_pair.CreateKeyPairResponsePayload( private_key_uuid=attributes.PrivateKeyUniqueIdentifier( str(private_key.unique_identifier) ), public_key_uuid=attributes.PublicKeyUniqueIdentifier( str(public_key.unique_identifier) ) ) self._id_placeholder = str(private_key.unique_identifier) return response_payload @_kmip_version_supported('1.0') def _process_register(self, payload): self._logger.info("Processing operation: Register") object_type = payload.object_type.value template_attribute = payload.template_attribute if self._object_map.get(object_type) is None: name = object_type.name raise exceptions.InvalidField( "The {0} object type is not supported.".format( ''.join( [x.capitalize() for x in name.split('_')] ) ) ) if payload.secret: secret = payload.secret else: # TODO (peterhamilton) It is possible to register 'empty' secrets # like Private Keys. For now, that feature is not supported. raise exceptions.InvalidField( "Cannot register a secret in absentia." ) object_attributes = {} if template_attribute: object_attributes = self._process_template_attribute( template_attribute ) managed_object_factory = factory.ObjectFactory() managed_object = managed_object_factory.convert(secret) managed_object.names = [] self._set_attributes_on_managed_object( managed_object, object_attributes ) # TODO (peterhamilton) Set additional server-only attributes. self._data_session.add(managed_object) # NOTE (peterhamilton) SQLAlchemy will *not* assign an ID until # commit is called. This makes future support for UNDO problematic. self._data_session.commit() self._logger.info( "Registered a {0} with ID: {1}".format( ''.join([x.capitalize() for x in object_type.name.split('_')]), managed_object.unique_identifier ) ) response_payload = register.RegisterResponsePayload( unique_identifier=attributes.UniqueIdentifier( str(managed_object.unique_identifier) ) ) self._id_placeholder = str(managed_object.unique_identifier) return response_payload @_kmip_version_supported('1.0') def _process_get(self, payload): self._logger.info("Processing operation: Get") unique_identifier = self._id_placeholder if payload.unique_identifier: unique_identifier = payload.unique_identifier.value key_format_type = None if payload.key_format_type: key_format_type = payload.key_format_type.value if payload.key_compression_type: raise exceptions.KeyCompressionTypeNotSupported( "Key compression is not supported." ) if payload.key_wrapping_specification: raise exceptions.PermissionDenied( "Key wrapping is not supported." ) # TODO (peterhamilton) Process key wrapping information # 1. Error check wrapping keys for accessibility and usability object_type = self._get_object_type(unique_identifier) managed_object = self._data_session.query(object_type).filter( object_type.unique_identifier == unique_identifier ).one() if key_format_type: if not hasattr(managed_object, 'key_format_type'): raise exceptions.KeyFormatTypeNotSupported( "Key format is not applicable to the specified object." ) # TODO (peterhamilton) Convert key to desired format if possible if key_format_type != managed_object.key_format_type: raise exceptions.KeyFormatTypeNotSupported( "Key format conversion from {0} to {1} is " "unsupported.".format( managed_object.key_format_type.name, key_format_type.name ) ) object_type = managed_object.object_type.name self._logger.info( "Getting a {0} with ID: {1}".format( ''.join([x.capitalize() for x in object_type.split('_')]), managed_object.unique_identifier ) ) core_secret = self._build_core_object(managed_object) response_payload = get.GetResponsePayload( object_type=attributes.ObjectType(managed_object._object_type), unique_identifier=attributes.UniqueIdentifier(unique_identifier), secret=core_secret ) return response_payload @_kmip_version_supported('1.0') def _process_destroy(self, payload): self._logger.info("Processing operation: Destroy") if payload.unique_identifier: unique_identifier = payload.unique_identifier.value else: unique_identifier = self._id_placeholder self._get_object_type(unique_identifier) # TODO (peterhamilton) Process attributes to see if destroy possible # 1. Check object state. If invalid, error out. # 2. Check object deactivation date. If invalid, error out. self._logger.info( "Destroying an object with ID: {0}".format(unique_identifier) ) self._data_session.query(objects.ManagedObject).filter( objects.ManagedObject.unique_identifier == unique_identifier ).delete() response_payload = destroy.DestroyResponsePayload( unique_identifier=attributes.UniqueIdentifier(unique_identifier) ) self._data_session.commit() return response_payload @_kmip_version_supported('1.0') def _process_query(self, payload): self._logger.info("Processing operation: Query") queries = [x.value for x in payload.query_functions] operations = list() objects = list() vendor_identification = None server_information = None namespaces = list() extensions = list() if enums.QueryFunction.QUERY_OPERATIONS in queries: operations = list([ contents.Operation(enums.Operation.CREATE), contents.Operation(enums.Operation.CREATE_KEY_PAIR), contents.Operation(enums.Operation.REGISTER), contents.Operation(enums.Operation.GET), contents.Operation(enums.Operation.DESTROY), contents.Operation(enums.Operation.QUERY) ]) if self._protocol_version == contents.ProtocolVersion.create(1, 1): operations.extend([ contents.Operation(enums.Operation.DISCOVER_VERSIONS) ]) if enums.QueryFunction.QUERY_OBJECTS in queries: objects = list() if enums.QueryFunction.QUERY_SERVER_INFORMATION in queries: vendor_identification = misc.VendorIdentification( "PyKMIP {0} Software Server".format(kmip.__version__) ) server_information = None if enums.QueryFunction.QUERY_APPLICATION_NAMESPACES in queries: namespaces = list() if enums.QueryFunction.QUERY_EXTENSION_LIST in queries: extensions = list() if enums.QueryFunction.QUERY_EXTENSION_MAP in queries: extensions = list() response_payload = query.QueryResponsePayload( operations=operations, object_types=objects, vendor_identification=vendor_identification, server_information=server_information, application_namespaces=namespaces, extension_information=extensions ) return response_payload @_kmip_version_supported('1.1') def _process_discover_versions(self, payload): self._logger.info("Processing operation: DiscoverVersions") supported_versions = list() if len(payload.protocol_versions) > 0: for version in payload.protocol_versions: if version in self._protocol_versions: supported_versions.append(version) else: supported_versions = self._protocol_versions response_payload = discover_versions.DiscoverVersionsResponsePayload( protocol_versions=supported_versions ) return response_payload