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PyKMIP/kmip/services/server/engine.py
Peter Hamilton 05b5b8411a Integrate policy file monitoring with the server 
This change updates the server, integrating policy file monitoring
and restructuring the engine. The top-level server entity now
handles loading policy files using the PolicyDirectoryMonitor
subprocess. A shared memory dictionary is used to share newly
modified policy data across the session threads managed by the
server and used by the engine. The legacy policy loading code in
the engine has been removed.

Unit tests have been added and modified for both the server and
engine to verify the functionality of these modifications.
2018-04-11 13:42:44 -04:00

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# 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 copy
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.objects import MACData, KeyWrappingData
from kmip.core.factories import attributes as attribute_factory
from kmip.core.factories import secrets
from kmip.core.messages import contents
from kmip.core.messages import messages
from kmip.core.messages import payloads
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, policies=None):
"""
Create a KmipEngine.
Args:
policy_path (string): The path to the filesystem directory
containing PyKMIP server operation policy JSON files.
Optional, defaults to None.
"""
self._logger = logging.getLogger('kmip.server.engine')
self._cryptography_engine = engine.CryptographyEngine()
self._data_store = sqlalchemy.create_engine(
'sqlite:////tmp/pykmip.database',
echo=False,
connect_args={'check_same_thread': 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(1, 2),
contents.ProtocolVersion(1, 1),
contents.ProtocolVersion(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)
self._operation_policies = policies
self._client_identity = [None, None]
def _get_enum_string(self, e):
return ''.join([x.capitalize() for x in e.name.split('_')])
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) Improve 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.
# For now, simply use the connection_credential as received. It was
# obtained from a valid client certificate, so consider it a trusted
# form of client identity.
self._client_identity = connection_credential
@_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 (string): 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.
"""
self._client_identity = [None, None]
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
if header.authentication:
if header.authentication.credentials:
auth_credentials = header.authentication.credentials[0]
else:
auth_credentials = None
else:
auth_credentials = None
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
)
)
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,
'key_wrapping_data': obj.key_wrapping_data
}
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,
'key_wrapping_data': obj.key_wrapping_data
}
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,
'key_wrapping_data': obj.key_wrapping_data
}
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 _get_attributes_from_managed_object(self, managed_object, attr_names):
"""
Given a kmip.pie object and a list of attribute names, attempt to get
all of the existing attribute values from the object.
"""
attr_factory = attribute_factory.AttributeFactory()
retrieved_attributes = list()
if not attr_names:
attr_names = self._attribute_policy.get_all_attribute_names()
for attribute_name in attr_names:
object_type = managed_object._object_type
if not self._attribute_policy.is_attribute_supported(
attribute_name
):
continue
if self._attribute_policy.is_attribute_applicable_to_object_type(
attribute_name,
object_type
):
try:
attribute_value = self._get_attribute_from_managed_object(
managed_object,
attribute_name
)
except Exception:
attribute_value = None
if attribute_value is not None:
if self._attribute_policy.is_attribute_multivalued(
attribute_name
):
for count, value in enumerate(attribute_value):
attribute = attr_factory.create_attribute(
enums.AttributeType(attribute_name),
value,
count
)
retrieved_attributes.append(attribute)
else:
attribute = attr_factory.create_attribute(
enums.AttributeType(attribute_name),
attribute_value
)
retrieved_attributes.append(attribute)
return retrieved_attributes
def _get_attribute_from_managed_object(self, managed_object, attr_name):
"""
Get the attribute value from the kmip.pie managed object.
"""
if attr_name == 'Unique Identifier':
return str(managed_object.unique_identifier)
elif attr_name == 'Name':
names = list()
for name in managed_object.names:
name = attributes.Name(
attributes.Name.NameValue(name),
attributes.Name.NameType(
enums.NameType.UNINTERPRETED_TEXT_STRING
)
)
names.append(name)
return names
elif attr_name == 'Object Type':
return managed_object._object_type
elif attr_name == 'Cryptographic Algorithm':
return managed_object.cryptographic_algorithm
elif attr_name == 'Cryptographic Length':
return managed_object.cryptographic_length
elif attr_name == 'Cryptographic Parameters':
return None
elif attr_name == 'Cryptographic Domain Parameters':
return None
elif attr_name == 'Certificate Type':
return managed_object.certificate_type
elif attr_name == 'Certificate Length':
return None
elif attr_name == 'X.509 Certificate Identifier':
return None
elif attr_name == 'X.509 Certificate Subject':
return None
elif attr_name == 'X.509 Certificate Issuer':
return None
elif attr_name == 'Certificate Identifier':
return None
elif attr_name == 'Certificate Subject':
return None
elif attr_name == 'Certificate Issuer':
return None
elif attr_name == 'Digital Signature Algorithm':
return None
elif attr_name == 'Digest':
return None
elif attr_name == 'Operation Policy Name':
return managed_object.operation_policy_name
elif attr_name == 'Cryptographic Usage Mask':
return managed_object.cryptographic_usage_masks
elif attr_name == 'Lease Time':
return None
elif attr_name == 'Usage Limits':
return None
elif attr_name == 'State':
return managed_object.state
elif attr_name == 'Initial Date':
return managed_object.initial_date
elif attr_name == 'Activation Date':
return None
elif attr_name == 'Process Start Date':
return None
elif attr_name == 'Protect Stop Date':
return None
elif attr_name == 'Deactivation Date':
return None
elif attr_name == 'Destroy Date':
return None
elif attr_name == 'Compromise Occurrence Date':
return None
elif attr_name == 'Compromise Date':
return None
elif attr_name == 'Revocation Reason':
return None
elif attr_name == 'Archive Date':
return None
elif attr_name == 'Object Group':
return None
elif attr_name == 'Fresh':
return None
elif attr_name == 'Link':
return None
elif attr_name == 'Application Specific Information':
return None
elif attr_name == 'Contact Information':
return None
elif attr_name == 'Last Change Date':
return None
else:
# Since custom attribute names are possible, just return None
# for unrecognized attributes. This satisfies the spec.
return None
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)
elif attribute_name == 'Operation Policy Name':
field = 'operation_policy_name'
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 _is_allowed_by_operation_policy(
self,
policy_name,
session_identity,
object_owner,
object_type,
operation
):
session_user = session_identity[0]
session_groups = session_identity[1]
if session_groups is None:
session_groups = [None]
for session_group in session_groups:
allowed = self.is_allowed(
policy_name,
session_user,
session_group,
object_owner,
object_type,
operation
)
if allowed:
return True
return False
def get_relevant_policy_section(self, policy_name, group=None):
"""
Look up the policy corresponding to the provided policy name and
group (optional). Log any issues found during the look up.
"""
policy_bundle = self._operation_policies.get(policy_name)
if not policy_bundle:
self._logger.warning(
"The '{}' policy does not exist.".format(policy_name)
)
return None
if group:
groups_policy_bundle = policy_bundle.get('groups')
if not groups_policy_bundle:
self._logger.debug(
"The '{}' policy does not support groups.".format(
policy_name
)
)
return None
else:
group_policy = groups_policy_bundle.get(group)
if not group_policy:
self._logger.debug(
"The '{}' policy does not support group '{}'.".format(
policy_name,
group
)
)
return None
else:
return group_policy
else:
return policy_bundle.get('default')
def is_allowed(
self,
policy_name,
session_user,
session_group,
object_owner,
object_type,
operation
):
"""
Determine if object access is allowed for the provided policy and
session settings.
"""
policy_section = self.get_relevant_policy_section(
policy_name,
session_group
)
if policy_section is None:
return False
object_policy = policy_section.get(object_type)
if not object_policy:
self._logger.warning(
"The '{0}' policy does not apply to {1} objects.".format(
policy_name,
self._get_enum_string(object_type)
)
)
return False
operation_object_policy = object_policy.get(operation)
if not operation_object_policy:
self._logger.warning(
"The '{0}' policy does not apply to {1} operations on {2} "
"objects.".format(
policy_name,
self._get_enum_string(operation),
self._get_enum_string(object_type)
)
)
return False
if operation_object_policy == enums.Policy.ALLOW_ALL:
return True
elif operation_object_policy == enums.Policy.ALLOW_OWNER:
if session_user == object_owner:
return True
else:
return False
elif operation_object_policy == enums.Policy.DISALLOW_ALL:
return False
else:
return False
def _get_object_with_access_controls(
self,
uid,
operation
):
object_type = self._get_object_type(uid)
managed_object = self._data_session.query(object_type).filter(
object_type.unique_identifier == uid
).one()
# TODO (peter-hamilton) Add debug log with policy contents?
# Determine if the request should be carried out under the object's
# operation policy. If not, feign ignorance of the object.
is_allowed = self._is_allowed_by_operation_policy(
managed_object.operation_policy_name,
self._client_identity,
managed_object._owner,
managed_object.object_type,
operation
)
if not is_allowed:
raise exceptions.ItemNotFound(
"Could not locate object: {0}".format(uid)
)
return managed_object
def _list_objects_with_access_controls(
self,
operation
):
managed_objects = None
managed_objects_allowed = list()
managed_objects = self._data_session.query(objects.ManagedObject).all()
for managed_object in managed_objects:
is_allowed = self._is_allowed_by_operation_policy(
managed_object.operation_policy_name,
self._client_identity,
managed_object._owner,
managed_object.object_type,
operation
)
if is_allowed is True:
managed_objects_allowed.append(managed_object)
return managed_objects_allowed
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.DERIVE_KEY:
return self._process_derive_key(payload)
elif operation == enums.Operation.LOCATE:
return self._process_locate(payload)
elif operation == enums.Operation.GET:
return self._process_get(payload)
elif operation == enums.Operation.GET_ATTRIBUTES:
return self._process_get_attributes(payload)
elif operation == enums.Operation.GET_ATTRIBUTE_LIST:
return self._process_get_attribute_list(payload)
elif operation == enums.Operation.ACTIVATE:
return self._process_activate(payload)
elif operation == enums.Operation.REVOKE:
return self._process_revoke(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)
elif operation == enums.Operation.ENCRYPT:
return self._process_encrypt(payload)
elif operation == enums.Operation.DECRYPT:
return self._process_decrypt(payload)
elif operation == enums.Operation.SIGNATURE_VERIFY:
return self._process_signature_verify(payload)
elif operation == enums.Operation.MAC:
return self._process_mac(payload)
elif operation == enums.Operation.SIGN:
return self._process_sign(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.
managed_object._owner = self._client_identity[0]
managed_object.initial_date = int(time.time())
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 = payloads.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.
public_key._owner = self._client_identity[0]
public_key.initial_date = int(time.time())
private_key._owner = self._client_identity[0]
private_key.initial_date = public_key.initial_date
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 = payloads.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.
managed_object._owner = self._client_identity[0]
managed_object.initial_date = int(time.time())
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 = payloads.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_derive_key(self, payload):
self._logger.info("Processing operation: DeriveKey")
object_attributes = {}
if payload.template_attribute:
object_attributes = self._process_template_attribute(
payload.template_attribute
)
if payload.object_type not in [
enums.ObjectType.SYMMETRIC_KEY,
enums.ObjectType.SECRET_DATA
]:
raise exceptions.InvalidField(
"Key derivation can only generate a SymmetricKey or "
"SecretData object."
)
# Retrieve existing managed objects to be used in the key derivation
# process. If any are unaccessible or not suitable for key derivation,
# raise an error.
existing_objects = []
for unique_identifier in payload.unique_identifiers:
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.GET
)
if managed_object._object_type not in [
enums.ObjectType.SECRET_DATA,
enums.ObjectType.SYMMETRIC_KEY,
enums.ObjectType.PUBLIC_KEY,
enums.ObjectType.PRIVATE_KEY
]:
raise exceptions.InvalidField(
"Object {0} is not a suitable type for key "
"derivation. Please specify a key or secret data.".format(
unique_identifier
)
)
elif enums.CryptographicUsageMask.DERIVE_KEY not in \
managed_object.cryptographic_usage_masks:
raise exceptions.InvalidField(
"The DeriveKey bit must be set in the cryptographic usage "
"mask for object {0} for it to be used in key "
"derivation.".format(unique_identifier)
)
else:
existing_objects.append(managed_object)
if len(existing_objects) > 1:
self._logger.info(
"{0} derivation objects specified with the DeriveKey "
"request.".format(len(existing_objects))
)
# Select the derivation object to use as the keying material
keying_object = existing_objects[0]
self._logger.info(
"Object {0} will be used as the keying material for the "
"derivation process.".format(keying_object.unique_identifier)
)
derivation_parameters = payload.derivation_parameters
derivation_data = None
if derivation_parameters.derivation_data is None:
if len(existing_objects) > 1:
for alternate in existing_objects[1:]:
if alternate._object_type == enums.ObjectType.SECRET_DATA:
self._logger.info(
"Object {0} will be used as the derivation data "
"for the derivation process.".format(
alternate.unique_identifier
)
)
derivation_data = alternate.value
break
else:
derivation_data = derivation_parameters.derivation_data
iv = b''
if derivation_parameters.initialization_vector is not None:
iv = derivation_parameters.initialization_vector
# Get the derivation length from the template attribute. It is
# required so if it cannot be found, raise an error.
derivation_length = None
attribute = object_attributes.get('Cryptographic Length')
if attribute:
derivation_length = attribute.value
if (derivation_length % 8) == 0:
derivation_length //= 8
else:
raise exceptions.InvalidField(
"The cryptographic length must correspond to a valid "
"number of bytes (i.e., it must be a multiple of 8)."
)
else:
raise exceptions.InvalidField(
"The cryptographic length must be provided in the template "
"attribute."
)
cryptographic_algorithm = None
if payload.object_type == enums.ObjectType.SYMMETRIC_KEY:
attribute = object_attributes.get('Cryptographic Algorithm')
if attribute:
cryptographic_algorithm = attribute.value
else:
raise exceptions.InvalidField(
"The cryptographic algorithm must be provided in the "
"template attribute when deriving a symmetric key."
)
# TODO (peterhamilton): Pull cryptographic parameters from the keying
# object if none are provided with the payload
crypto_parameters = derivation_parameters.cryptographic_parameters
derived_data = self._cryptography_engine.derive_key(
derivation_method=payload.derivation_method,
derivation_length=derivation_length,
derivation_data=derivation_data,
key_material=keying_object.value,
hash_algorithm=crypto_parameters.hashing_algorithm,
salt=derivation_parameters.salt,
iteration_count=derivation_parameters.iteration_count,
encryption_algorithm=crypto_parameters.cryptographic_algorithm,
cipher_mode=crypto_parameters.block_cipher_mode,
padding_method=crypto_parameters.padding_method,
iv_nonce=iv
)
if derivation_length > len(derived_data):
raise exceptions.CryptographicFailure(
"The specified length exceeds the output of the derivation "
"method."
)
if len(derived_data) > derivation_length:
derived_data = derived_data[:derivation_length]
if payload.object_type == enums.ObjectType.SYMMETRIC_KEY:
managed_object = objects.SymmetricKey(
algorithm=cryptographic_algorithm,
length=(derivation_length * 8),
value=derived_data,
)
else:
managed_object = objects.SecretData(
value=derived_data,
data_type=enums.SecretDataType.SEED,
)
managed_object.names = []
if payload.object_type == enums.ObjectType.SECRET_DATA:
del object_attributes['Cryptographic Length']
self._set_attributes_on_managed_object(
managed_object,
object_attributes
)
# TODO (peterhamilton) Set additional server-only attributes.
managed_object._owner = self._client_identity[0]
managed_object.initial_date = int(time.time())
self._data_session.add(managed_object)
self._data_session.commit()
self._logger.info(
"Created a {0} with ID: {1}".format(
''.join(
[x.capitalize() for x in
payload.object_type.name.split('_')]
),
managed_object.unique_identifier
)
)
self._id_placeholder = str(managed_object.unique_identifier)
response_payload = payloads.DeriveKeyResponsePayload(
unique_identifier=str(managed_object.unique_identifier)
)
return response_payload
@_kmip_version_supported('1.0')
def _process_locate(self, payload):
# TODO: Need to complete the filtering logic based on all given
# objects in payload.
self._logger.info("Processing operation: Locate")
managed_objects = self._list_objects_with_access_controls(
enums.Operation.LOCATE)
if payload.attributes:
managed_objects_filtered = []
# Filter the objects based on given attributes.
# TODO: Currently will only filter for 'Name'.
# Needs to add other attributes.
for managed_object in managed_objects:
for attribute in payload.attributes:
attribute_name = attribute.attribute_name.value
attribute_value = attribute.attribute_value
attr = self._get_attribute_from_managed_object(
managed_object, attribute_name)
if attribute_name == 'Name':
names = attr
if attribute_value not in names:
break
# TODO: filtering on other attributes
else:
managed_objects_filtered.append(managed_object)
managed_objects = managed_objects_filtered
unique_identifiers = [attributes.UniqueIdentifier(
str(managed_object.unique_identifier))
for managed_object in managed_objects]
response_payload = payloads.LocateResponsePayload(
unique_identifiers=unique_identifiers
)
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
key_format_type = None
if payload.key_format_type:
key_format_type = payload.key_format_type
if payload.key_compression_type:
raise exceptions.KeyCompressionTypeNotSupported(
"Key compression is not supported."
)
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.GET
)
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
)
)
if payload.key_wrapping_specification:
key_wrapping_spec = payload.key_wrapping_specification
wrapping_method = key_wrapping_spec.wrapping_method
if wrapping_method != enums.WrappingMethod.ENCRYPT:
raise exceptions.OperationNotSupported(
"Wrapping method '{0}' is not supported.".format(
wrapping_method
)
)
if key_wrapping_spec.encryption_key_information:
key_info = key_wrapping_spec.encryption_key_information
encryption_key_uuid = key_info.unique_identifier
encryption_key_params = key_info.cryptographic_parameters
try:
key = self._get_object_with_access_controls(
encryption_key_uuid,
enums.Operation.GET
)
except Exception:
raise exceptions.ItemNotFound(
"Wrapping key does not exist."
)
if key._object_type != enums.ObjectType.SYMMETRIC_KEY:
raise exceptions.IllegalOperation(
"The wrapping encryption key specified by the "
"encryption key information is not a key."
)
if key.state != enums.State.ACTIVE:
raise exceptions.PermissionDenied(
"Encryption key {0} must be activated to be used for "
"key wrapping.".format(encryption_key_uuid)
)
mask = enums.CryptographicUsageMask.WRAP_KEY
if mask not in key.cryptographic_usage_masks:
raise exceptions.PermissionDenied(
"The WrapKey bit must be set in the cryptographic "
"usage mask of encryption key {0} for it to be used "
"for key wrapping.".format(encryption_key_uuid)
)
if key_wrapping_spec.attribute_names:
raise exceptions.IllegalOperation(
"Wrapping object attributes is not supported."
)
encoding_option = key_wrapping_spec.encoding_option
if encoding_option != enums.EncodingOption.NO_ENCODING:
raise exceptions.EncodingOptionError(
"Encoding option '{0}' is not supported.".format(
encoding_option
)
)
self._logger.info("Wrapping {0} {1} with {2} {3}.".format(
''.join([x.capitalize() for x in object_type.split('_')]),
managed_object.unique_identifier,
''.join(
[x.capitalize() for x in key._object_type.name.split(
'_'
)]
),
encryption_key_uuid
))
result = self._cryptography_engine.wrap_key(
key_material=managed_object.value,
wrapping_method=key_wrapping_spec.wrapping_method,
key_wrap_algorithm=encryption_key_params.block_cipher_mode,
encryption_key=key.value
)
wrapped_object = copy.deepcopy(managed_object)
wrapped_object.value = result
core_secret = self._build_core_object(wrapped_object)
key_wrapping_data = KeyWrappingData(
wrapping_method=wrapping_method,
encryption_key_information=key_info,
encoding_option=encoding_option
)
core_secret.key_block.key_wrapping_data = key_wrapping_data
elif key_wrapping_spec.mac_signature_key_information:
raise exceptions.PermissionDenied(
"Key wrapping with MAC/signing key information is not "
"supported."
)
else:
raise exceptions.PermissionDenied(
"Either the encryption key information or the "
"MAC/signature key information must be specified for key "
"wrapping to be performed."
)
else:
core_secret = self._build_core_object(managed_object)
response_payload = payloads.GetResponsePayload(
object_type=managed_object._object_type,
unique_identifier=unique_identifier,
secret=core_secret
)
return response_payload
@_kmip_version_supported('1.0')
def _process_get_attributes(self, payload):
self._logger.info("Processing operation: GetAttributes")
if payload.unique_identifier:
unique_identifier = payload.unique_identifier
else:
unique_identifier = self._id_placeholder
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.GET_ATTRIBUTES
)
attrs = self._get_attributes_from_managed_object(
managed_object,
payload.attribute_names
)
response_payload = payloads.GetAttributesResponsePayload(
unique_identifier=unique_identifier,
attributes=attrs
)
return response_payload
@_kmip_version_supported('1.0')
def _process_get_attribute_list(self, payload):
self._logger.info("Processing operation: GetAttributeList")
if payload.unique_identifier:
unique_identifier = payload.unique_identifier
else:
unique_identifier = self._id_placeholder
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.GET_ATTRIBUTE_LIST
)
object_attributes = self._get_attributes_from_managed_object(
managed_object,
list()
)
attribute_names = list()
for object_attribute in object_attributes:
attribute_names.append(object_attribute.attribute_name.value)
response_payload = payloads.GetAttributeListResponsePayload(
unique_identifier=unique_identifier,
attribute_names=attribute_names
)
return response_payload
@_kmip_version_supported('1.0')
def _process_activate(self, payload):
self._logger.info("Processing operation: Activate")
if payload.unique_identifier:
unique_identifier = payload.unique_identifier.value
else:
unique_identifier = self._id_placeholder
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.ACTIVATE
)
object_type = managed_object._object_type
if not hasattr(managed_object, 'state'):
raise exceptions.IllegalOperation(
"An {0} object has no state and cannot be activated.".format(
''.join(
[x.capitalize() for x in object_type.name.split('_')]
)
)
)
if managed_object.state != enums.State.PRE_ACTIVE:
raise exceptions.PermissionDenied(
"The object state is not pre-active and cannot be activated."
)
managed_object.state = enums.State.ACTIVE
self._data_session.commit()
response_payload = payloads.ActivateResponsePayload(
unique_identifier=attributes.UniqueIdentifier(unique_identifier)
)
return response_payload
@_kmip_version_supported('1.0')
def _process_revoke(self, payload):
self._logger.info("Processing operation: Revoke")
revocation_code = None
if payload.revocation_reason and \
payload.revocation_reason.revocation_code:
revocation_code = payload.revocation_reason.revocation_code
else:
raise exceptions.InvalidField(
"revocation reason code must be specified"
)
if payload.unique_identifier:
unique_identifier = payload.unique_identifier.value
else:
unique_identifier = self._id_placeholder
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.REVOKE
)
object_type = managed_object._object_type
if not hasattr(managed_object, 'state'):
raise exceptions.IllegalOperation(
"An {0} object has no state and cannot be revoked.".format(
''.join(
[x.capitalize() for x in object_type.name.split('_')]
)
)
)
# TODO: need to set Compromise Date attribute or Deactivation Date
# attribute
if revocation_code.value is enums.RevocationReasonCode.KEY_COMPROMISE:
if managed_object.state == enums.State.DESTROYED:
managed_object.state = enums.State.DESTROYED_COMPROMISED
else:
managed_object.state = enums.State.COMPROMISED
else:
if managed_object.state != enums.State.ACTIVE:
raise exceptions.IllegalOperation(
"The object is not active and cannot be revoked with "
"reason other than KEY_COMPROMISE"
)
else:
managed_object.state = enums.State.DEACTIVATED
self._data_session.commit()
response_payload = payloads.RevokeResponsePayload(
unique_identifier=attributes.UniqueIdentifier(unique_identifier)
)
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
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.DESTROY
)
# TODO If in "ACTIVE" state, we need to check its "Deactivation date"
# to see whether it can be destroyed or not
if hasattr(managed_object, 'state'):
if managed_object.state == enums.State.ACTIVE:
raise exceptions.PermissionDenied(
"Object is active and cannot be destroyed."
)
# 'OpaqueObject' object has no attribute 'state'
if hasattr(managed_object, 'state') and \
managed_object.state == enums.State.COMPROMISED:
managed_object.state = enums.State.DESTROYED_COMPROMISED
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 = payloads.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.DERIVE_KEY),
contents.Operation(enums.Operation.LOCATE),
contents.Operation(enums.Operation.GET),
contents.Operation(enums.Operation.GET_ATTRIBUTES),
contents.Operation(enums.Operation.GET_ATTRIBUTE_LIST),
contents.Operation(enums.Operation.ACTIVATE),
contents.Operation(enums.Operation.REVOKE),
contents.Operation(enums.Operation.DESTROY),
contents.Operation(enums.Operation.QUERY)
])
if self._protocol_version >= contents.ProtocolVersion(1, 1):
operations.extend([
contents.Operation(enums.Operation.DISCOVER_VERSIONS)
])
if self._protocol_version >= contents.ProtocolVersion(1, 2):
operations.extend([
contents.Operation(enums.Operation.ENCRYPT),
contents.Operation(enums.Operation.DECRYPT),
contents.Operation(enums.Operation.SIGN),
contents.Operation(enums.Operation.SIGNATURE_VERIFY),
contents.Operation(enums.Operation.MAC)
])
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 = payloads.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 = payloads.DiscoverVersionsResponsePayload(
protocol_versions=supported_versions
)
return response_payload
@_kmip_version_supported('1.2')
def _process_encrypt(self, payload):
self._logger.info("Processing operation: Encrypt")
unique_identifier = self._id_placeholder
if payload.unique_identifier:
unique_identifier = payload.unique_identifier
# The KMIP spec does not indicate that the Encrypt operation should
# have it's own operation policy entry. Rather, the cryptographic
# usage mask should be used to determine if the object can be used
# to encrypt data (see below).
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.GET
)
cryptographic_parameters = payload.cryptographic_parameters
if cryptographic_parameters is None:
# TODO (peter-hamilton): Pull the cryptographic parameters from
# the attributes associated with the encryption key.
raise exceptions.InvalidField(
"The cryptographic parameters must be specified."
)
# TODO (peter-hamilton): Check the usage limitations for the key to
# confirm that it can be used for this operation.
if managed_object._object_type != enums.ObjectType.SYMMETRIC_KEY:
raise exceptions.PermissionDenied(
"The requested encryption key is not a symmetric key. "
"Only symmetric encryption is currently supported."
)
if managed_object.state != enums.State.ACTIVE:
raise exceptions.PermissionDenied(
"The encryption key must be in the Active state to be used "
"for encryption."
)
if enums.CryptographicUsageMask.ENCRYPT not in \
managed_object.cryptographic_usage_masks:
raise exceptions.PermissionDenied(
"The Encrypt bit must be set in the encryption key's "
"cryptographic usage mask."
)
result = self._cryptography_engine.encrypt(
cryptographic_parameters.cryptographic_algorithm,
managed_object.value,
payload.data,
cipher_mode=cryptographic_parameters.block_cipher_mode,
padding_method=cryptographic_parameters.padding_method,
iv_nonce=payload.iv_counter_nonce
)
response_payload = payloads.EncryptResponsePayload(
unique_identifier,
result.get('cipher_text'),
result.get('iv_nonce')
)
return response_payload
@_kmip_version_supported('1.2')
def _process_decrypt(self, payload):
self._logger.info("Processing operation: Decrypt")
unique_identifier = self._id_placeholder
if payload.unique_identifier:
unique_identifier = payload.unique_identifier
# The KMIP spec does not indicate that the Decrypt operation should
# have it's own operation policy entry. Rather, the cryptographic
# usage mask should be used to determine if the object can be used
# to decrypt data (see below).
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.GET
)
cryptographic_parameters = payload.cryptographic_parameters
if cryptographic_parameters is None:
# TODO (peter-hamilton): Pull the cryptographic parameters from
# the attributes associated with the decryption key.
raise exceptions.InvalidField(
"The cryptographic parameters must be specified."
)
# TODO (peter-hamilton): Check the usage limitations for the key to
# confirm that it can be used for this operation.
if managed_object._object_type != enums.ObjectType.SYMMETRIC_KEY:
raise exceptions.PermissionDenied(
"The requested decryption key is not a symmetric key. "
"Only symmetric decryption is currently supported."
)
if managed_object.state != enums.State.ACTIVE:
raise exceptions.PermissionDenied(
"The decryption key must be in the Active state to be used "
"for decryption."
)
if enums.CryptographicUsageMask.DECRYPT not in \
managed_object.cryptographic_usage_masks:
raise exceptions.PermissionDenied(
"The Decrypt bit must be set in the decryption key's "
"cryptographic usage mask."
)
result = self._cryptography_engine.decrypt(
cryptographic_parameters.cryptographic_algorithm,
managed_object.value,
payload.data,
cipher_mode=cryptographic_parameters.block_cipher_mode,
padding_method=cryptographic_parameters.padding_method,
iv_nonce=payload.iv_counter_nonce
)
response_payload = payloads.DecryptResponsePayload(
unique_identifier,
result
)
return response_payload
@_kmip_version_supported('1.2')
def _process_signature_verify(self, payload):
self._logger.info("Processing operation: Signature Verify")
unique_identifier = self._id_placeholder
if payload.unique_identifier:
unique_identifier = payload.unique_identifier
# The KMIP spec does not indicate that the SignatureVerify operation
# should have it's own operation policy entry. Rather, the
# cryptographic usage mask should be used to determine if the object
# can be used to verify signatures (see below).
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.GET
)
parameters = payload.cryptographic_parameters
if parameters is None:
# TODO (peter-hamilton): Pull the cryptographic parameters from
# the attributes associated with the signing key.
raise exceptions.InvalidField(
"The cryptographic parameters must be specified."
)
# TODO (peter-hamilton): Check the usage limitations for the key to
# confirm that it can be used for this operation.
if managed_object._object_type != enums.ObjectType.PUBLIC_KEY:
raise exceptions.PermissionDenied(
"The requested signing key is not a public key. A public key "
"must be specified."
)
if managed_object.state != enums.State.ACTIVE:
raise exceptions.PermissionDenied(
"The signing key must be in the Active state to be used for "
"signature verification."
)
masks = managed_object.cryptographic_usage_masks
if enums.CryptographicUsageMask.VERIFY not in masks:
raise exceptions.PermissionDenied(
"The Verify bit must be set in the signing key's "
"cryptographic usage mask."
)
result = self._cryptography_engine.verify_signature(
signing_key=managed_object.value,
message=payload.data,
signature=payload.signature_data,
padding_method=parameters.padding_method,
signing_algorithm=parameters.cryptographic_algorithm,
hashing_algorithm=parameters.hashing_algorithm,
digital_signature_algorithm=parameters.digital_signature_algorithm
)
if result:
validity = enums.ValidityIndicator.VALID
else:
validity = enums.ValidityIndicator.INVALID
response_payload = payloads.SignatureVerifyResponsePayload(
unique_identifier=unique_identifier,
validity_indicator=validity
)
return response_payload
@_kmip_version_supported('1.2')
def _process_mac(self, payload):
self._logger.info("Processing operation: MAC")
unique_identifier = self._id_placeholder
if payload.unique_identifier:
unique_identifier = payload.unique_identifier.value
# TODO: Currently use the GET operation policy here to ensure only a
# user with read access to the secret can use it to compute a MAC
# value. However, the MAC operation's access should be controlled by
# cryptographic usage mask instead of operation policy.
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.GET
)
algorithm = None
if (payload.cryptographic_parameters and
payload.cryptographic_parameters.cryptographic_algorithm):
algorithm = \
payload.cryptographic_parameters.cryptographic_algorithm
elif (isinstance(managed_object, objects.Key) and
managed_object.cryptographic_algorithm):
algorithm = managed_object.cryptographic_algorithm
else:
raise exceptions.PermissionDenied(
"The cryptographic algorithm must be specified "
"for the MAC operation"
)
key = None
if managed_object.value:
key = managed_object.value
else:
raise exceptions.PermissionDenied(
"A secret key value must be specified "
"for the MAC operation"
)
data = None
if payload.data:
data = payload.data.value
else:
raise exceptions.PermissionDenied(
"No data to be MACed"
)
if managed_object.state != enums.State.ACTIVE:
raise exceptions.PermissionDenied(
"Object is not in a state that can be used for MACing."
)
if enums.CryptographicUsageMask.MAC_GENERATE not in \
managed_object.cryptographic_usage_masks:
raise exceptions.PermissionDenied(
"MAC Generate must be set in the object's cryptographic "
"usage mask"
)
result = self._cryptography_engine.mac(
algorithm,
key,
data
)
response_payload = payloads.MACResponsePayload(
unique_identifier=attributes.UniqueIdentifier(unique_identifier),
mac_data=MACData(result)
)
return response_payload
@_kmip_version_supported('1.2')
def _process_sign(self, payload):
self._logger.info("Processing operation: Sign")
unique_identifier = self._id_placeholder
if payload.unique_identifier:
unique_identifier = payload.unique_identifier
managed_object = self._get_object_with_access_controls(
unique_identifier,
enums.Operation.GET
)
parameters = payload.cryptographic_parameters
if parameters is None:
# TODO (dane-fichter): Pull the cryptographic parameters from
# the managed object with lowest attribute index.
raise exceptions.InvalidField(
"The cryptographic parameters must be specified."
)
if managed_object._object_type != enums.ObjectType.PRIVATE_KEY:
raise exceptions.PermissionDenied(
"The requested signing key is not a private key. A private "
"key must be specified."
)
if managed_object.state != enums.State.ACTIVE:
raise exceptions.PermissionDenied(
"The signing key must be in the Active state to be used for "
"signing."
)
masks = managed_object.cryptographic_usage_masks
if enums.CryptographicUsageMask.SIGN not in masks:
raise exceptions.PermissionDenied(
"The Sign bit must be set in the signing key's "
"cryptographic usage mask."
)
result = self._cryptography_engine.sign(
digital_signature_algorithm=parameters.digital_signature_algorithm,
crypto_alg=parameters.cryptographic_algorithm,
hash_algorithm=parameters.hashing_algorithm,
padding=parameters.padding_method,
signing_key=managed_object.value,
data=payload.data
)
response_payload = payloads.SignResponsePayload(
unique_identifier=unique_identifier,
signature_data=result
)
return response_payload
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