def test_write(self):
attrObj = Attribute(self.attribute_name_a, self.attribute_index_a,
self.attribute_value_a)
ostream = BytearrayStream()
attrObj.write(ostream)
self.assertEqual(self.key_req_with_crypt_params, ostream)
def test_write(self):
attrObj = Attribute(self.attribute_name_a, self.attribute_index_a,
self.attribute_value_a)
ostream = BytearrayStream()
attrObj.write(ostream)
self.assertEqual(self.key_req_with_crypt_params, ostream)
def _create_attribute(self, name, value, index):
attribute_name = Attribute.AttributeName(name)
if index is None:
return Attribute(attribute_name=attribute_name,
attribute_value=value)
else:
attribute_index = Attribute.AttributeIndex(index)
return Attribute(attribute_name=attribute_name,
attribute_index=attribute_index,
attribute_value=value)
def _create_key_pair(self, key_name=None):
"""
Helper function for creating private and public keys. Used any time
a key pair needs to be created.
:param key_name: name of the key to be created
:return: returns the result of the "create key" operation as
provided by the KMIP appliance
"""
attribute_type = AttributeType.CRYPTOGRAPHIC_ALGORITHM
algorithm = self.attr_factory.create_attribute(attribute_type,
CryptoAlgorithmEnum.RSA)
mask_flags = [CryptographicUsageMask.ENCRYPT,
CryptographicUsageMask.DECRYPT]
attribute_type = AttributeType.CRYPTOGRAPHIC_USAGE_MASK
usage_mask = self.attr_factory.create_attribute(attribute_type,
mask_flags)
key_length = 2048
attribute_type = AttributeType.CRYPTOGRAPHIC_LENGTH
key_length_obj = self.attr_factory.create_attribute(attribute_type,
key_length)
name = Attribute.AttributeName('Name')
if key_name is None:
key_name = 'Integration Test - Key'
priv_name_value = Name.NameValue(key_name + " Private")
pub_name_value = Name.NameValue(key_name + " Public")
name_type = Name.NameType(NameType.UNINTERPRETED_TEXT_STRING)
priv_value = Name(name_value=priv_name_value, name_type=name_type)
pub_value = Name(name_value=pub_name_value, name_type=name_type)
priv_name = Attribute(attribute_name=name, attribute_value=priv_value)
pub_name = Attribute(attribute_name=name, attribute_value=pub_value)
common_attributes = [algorithm, usage_mask, key_length_obj]
private_key_attributes = [priv_name]
public_key_attributes = [pub_name]
common = TemplateAttribute(
attributes=common_attributes,
tag=enums.Tags.COMMON_TEMPLATE_ATTRIBUTE
)
priv_templ_attr = TemplateAttribute(
attributes=private_key_attributes,
tag=enums.Tags.PRIVATE_KEY_TEMPLATE_ATTRIBUTE
)
pub_templ_attr = TemplateAttribute(
attributes=public_key_attributes,
tag=enums.Tags.PUBLIC_KEY_TEMPLATE_ATTRIBUTE
)
return self.client.\
create_key_pair(common_template_attribute=common,
private_key_template_attribute=priv_templ_attr,
public_key_template_attribute=pub_templ_attr)
def setUp(self):
super(TestAttributeClass, self).setUp()
name_a = 'CRYPTOGRAPHIC PARAMETERS'
name_b = 'CRYPTOGRAPHIC ALGORITHM'
self.attribute_name_a = Attribute.AttributeName(name_a)
self.attribute_name_b = Attribute.AttributeName(name_b)
self.factory = AttributeValueFactory()
self.attribute_value_a = self.factory.create_attribute_value(
AttributeType.CRYPTOGRAPHIC_PARAMETERS, {
'block_cipher_mode': BlockCipherMode.CBC,
'padding_method': PaddingMethod.PKCS5,
'hashing_algorithm': HashingAlgorithmEnum.SHA_1,
'key_role_type': KeyRoleType.BDK
})
self.attribute_value_b = self.factory.create_attribute_value(
AttributeType.CRYPTOGRAPHIC_PARAMETERS, {
'block_cipher_mode': BlockCipherMode.CCM,
'padding_method': PaddingMethod.PKCS5,
'hashing_algorithm': HashingAlgorithmEnum.SHA_1,
'key_role_type': KeyRoleType.BDK
})
index_a = 2
index_b = 3
self.attribute_index_a = Attribute.AttributeIndex(index_a)
self.attribute_index_b = Attribute.AttributeIndex(index_b)
self.attributeObj_a = Attribute(attribute_name=self.attribute_name_a,
attribute_value=self.attribute_value_a,
attribute_index=self.attribute_index_a)
self.attributeObj_b = Attribute(attribute_name=self.attribute_name_b,
attribute_value=self.attribute_value_a,
attribute_index=self.attribute_index_a)
self.attributeObj_c = Attribute(attribute_name=self.attribute_name_a,
attribute_value=self.attribute_value_b,
attribute_index=self.attribute_index_a)
self.attributeObj_d = Attribute(attribute_name=self.attribute_name_a,
attribute_value=self.attribute_value_a,
attribute_index=self.attribute_index_b)
self.key_req_with_crypt_params = BytearrayStream((
b'\x42\x00\x08\x01\x00\x00\x00\x78\x42\x00\x0a\x07\x00\x00\x00\x18'
b'\x43\x52\x59\x50\x54\x4f\x47\x52\x41\x50\x48\x49\x43\x20\x50\x41'
b'\x52\x41\x4d\x45\x54\x45\x52\x53'
b'\x42\x00\x09\x02\x00\x00\x00\x04\x00\x00\x00\x02\x00\x00\x00\x00'
b'\x42\x00\x0b\x01\x00\x00\x00\x40'
b'\x42\x00\x11\x05\x00\x00\x00\x04\x00\x00\x00\x01\x00\x00\x00\x00'
b'\x42\x00\x5f\x05\x00\x00\x00\x04\x00\x00\x00\x03\x00\x00\x00\x00'
b'\x42\x00\x38\x05\x00\x00\x00\x04\x00\x00\x00\x04\x00\x00\x00\x00'
b'\x42\x00\x83\x05\x00\x00\x00\x04\x00\x00\x00\x01\x00\x00\x00\x00'
))
def read(self, istream):
super(LocateRequestPayload, self).read(istream)
tstream = BytearrayStream(istream.read(self.length))
if self.is_tag_next(Tags.MAXIMUM_ITEMS, tstream):
self.maximum_items = LocateRequestPayload.MaximumItems()
self.maximum_items.read()
if self.is_tag_next(Tags.STORAGE_STATUS_MASK, tstream):
self.storage_status_mask = LocateRequestPayload.StorageStatusMask()
self.storage_status_mask.read()
if self.is_tag_next(Tags.OBJECT_GROUP_MEMBER, tstream):
self.object_group_member = LocateRequestPayload.ObjectGroupMember()
self.object_group_member.read(tstream)
while self.is_tag_next(Tags.ATTRIBUTE, tstream):
attr = Attribute()
attr.read(tstream)
self.attributes.append(attr)
self.validate()
def read(self, istream):
super(LocateRequestPayload, self).read(istream)
tstream = BytearrayStream(istream.read(self.length))
if self.is_tag_next(Tags.MAXIMUM_ITEMS, tstream):
self.maximum_items = LocateRequestPayload.MaximumItems()
self.maximum_items.read(tstream)
if self.is_tag_next(Tags.STORAGE_STATUS_MASK, tstream):
self.storage_status_mask = LocateRequestPayload.StorageStatusMask()
self.storage_status_mask.read(tstream)
if self.is_tag_next(Tags.OBJECT_GROUP_MEMBER, tstream):
self.object_group_member = LocateRequestPayload.ObjectGroupMember()
self.object_group_member.read(tstream)
while self.is_tag_next(Tags.ATTRIBUTE, tstream):
attr = Attribute()
attr.read(tstream)
self.attributes.append(attr)
self.validate()
def _create_symmetric_key(self, key_name=None):
"""
Helper function for creating symmetric keys. Used any time a key
needs to be created.
:param key_name: name of the key to be created
:return: returns the result of the "create key" operation as
provided by the KMIP appliance
"""
object_type = ObjectType.SYMMETRIC_KEY
attribute_type = AttributeType.CRYPTOGRAPHIC_ALGORITHM
algorithm = self.attr_factory.create_attribute(attribute_type,
CryptoAlgorithmEnum.AES)
mask_flags = [
CryptographicUsageMask.ENCRYPT, CryptographicUsageMask.DECRYPT
]
attribute_type = AttributeType.CRYPTOGRAPHIC_USAGE_MASK
usage_mask = self.attr_factory.create_attribute(
attribute_type, mask_flags)
key_length = 128
attribute_type = AttributeType.CRYPTOGRAPHIC_LENGTH
key_length_obj = self.attr_factory.create_attribute(
attribute_type, key_length)
name = Attribute.AttributeName('Name')
if key_name is None:
key_name = 'Integration Test - Key'
name_value = Name.NameValue(key_name)
name_type = Name.NameType(NameType.UNINTERPRETED_TEXT_STRING)
value = Name(name_value=name_value, name_type=name_type)
name = Attribute(attribute_name=name, attribute_value=value)
attributes = [algorithm, usage_mask, key_length_obj, name]
template_attribute = TemplateAttribute(attributes=attributes)
return self.client.create(object_type,
template_attribute,
credential=None)
def read(self, istream, kmip_version=enums.KMIPVersion.KMIP_1_0):
super(Template, self).read(istream, kmip_version=kmip_version)
tstream = BytearrayStream(istream.read(self.length))
self.attributes = list()
attribute = Attribute()
attribute.read(tstream, kmip_version=kmip_version)
self.attributes.append(attribute)
while self.is_tag_next(Tags.ATTRIBUTE, tstream):
attribute = Attribute()
attribute.read(tstream, kmip_version=kmip_version)
self.attributes.append(attribute)
self.is_oversized(tstream)
self.validate()
def proccess_template_attributes(self, attributes):
template_attributes = []
attribute_factory = AttributeFactory()
for attribute in attributes:
attribute_type = AttributeType(attribute['AttributeName']['value'])
attribute_value = None
if attribute_type == AttributeType.X_ID:
name = Attribute.AttributeName('Name')
attribute_value = Name.NameValue(
attribute['AttributeValue']['value'])
attribute_type = Name.NameType(
NameType.UNINTERPRETED_TEXT_STRING)
value = Name(name_value=attribute_value,
name_type=attribute_type)
name = Attribute(attribute_name=name, attribute_value=value)
template_attributes.append(name)
continue
if attribute_type == AttributeType.CRYPTOGRAPHIC_ALGORITHM:
attribute_value = getattr(CryptographicAlgorithm,
attribute['AttributeValue']['value'],
None)
if attribute_type == AttributeType.CRYPTOGRAPHIC_LENGTH:
attribute_value = attribute['AttributeValue']['value']
if attribute_type == AttributeType.CRYPTOGRAPHIC_USAGE_MASK:
usage_mask = attribute['AttributeValue']['value'].split(' ')
for idx, val in enumerate(usage_mask):
usage_mask[idx] = getattr(CryptographicUsageMask,
val.upper(), None)
attribute_value = usage_mask
attribute_obj = attribute_factory.create_attribute(
attribute_type, attribute_value)
template_attributes.append(attribute_obj)
template_attributes = TemplateAttribute(attributes=template_attributes)
return template_attributes
def read(self, istream):
super(Template, self).read(istream)
tstream = BytearrayStream(istream.read(self.length))
self.attributes = list()
attribute = Attribute()
attribute.read(tstream)
self.attributes.append(attribute)
while self.is_tag_next(Tags.ATTRIBUTE, tstream):
attribute = Attribute()
attribute.read(tstream)
self.attributes.append(attribute)
self.is_oversized(tstream)
self.validate()
if (username is None) and (password is None):
credential = None
else:
credential_type = CredentialType.USERNAME_AND_PASSWORD
credential_value = {'Username': username, 'Password': password}
credential = credential_factory.create_credential(
credential_type, credential_value)
# Build the client and connect to the server
client = KMIPProxy(config=config)
client.open()
algorithm_obj = attribute_factory.create_attribute(attribute_type,
algorithm_enum)
name_value = Name.NameValue(name)
name = Attribute.AttributeName('Name')
name_type = Name.NameType(NameType.UNINTERPRETED_TEXT_STRING)
value = Name(name_value=name_value, name_type=name_type)
name = Attribute(attribute_name=name, attribute_value=value)
name = Attribute.AttributeName('Cryptographic Usage Mask')
value = CryptographicUsageMask(UsageMaskEnum.ENCRYPT.value
| UsageMaskEnum.DECRYPT.value)
usage_mask = Attribute(attribute_name=name, attribute_value=value)
attribute_type = AttributeType.CRYPTOGRAPHIC_LENGTH
length_obj = attribute_factory.create_attribute(attribute_type, length)
attributes = [algorithm_obj, length_obj, name, usage_mask]
common = CommonTemplateAttribute(attributes=attributes)
private = PrivateKeyTemplateAttribute(attributes=attributes)
def test_read(self):
attrObj = Attribute()
attrObj.read(self.key_req_with_crypt_params)
self.assertEqual(self.attributeObj_a, attrObj)
def test_read(self):
attrObj = Attribute()
attrObj.read(self.key_req_with_crypt_params)
self.assertEqual(self.attributeObj_a, attrObj)
def test_cert_register_get_destroy(self):
"""
Tests that certificates are properly registered, retrieved,
and destroyed.
"""
# properties copied from test case example :
# http://docs.oasis-open.org/kmip/testcases/v1.1/cn01/kmip-testcases-v1.1-cn01.html#_Toc333488807
cert_obj_type = ObjectType.CERTIFICATE
mask_flags = [
CryptographicUsageMask.SIGN, CryptographicUsageMask.VERIFY
]
attribute_type = AttributeType.CRYPTOGRAPHIC_USAGE_MASK
usage_mask = self.attr_factory.create_attribute(
attribute_type, mask_flags)
name = Attribute.AttributeName('Name')
cert_name = 'Integration Test - Register-Get-Destroy Certificate'
cert_name_value = Name.NameValue(cert_name)
name_type = Name.NameType(NameType.UNINTERPRETED_TEXT_STRING)
cert_value = Name(name_value=cert_name_value, name_type=name_type)
cert_name_attr = Attribute(attribute_name=name,
attribute_value=cert_value)
cert_attributes = [usage_mask, cert_name_attr]
cert_template_attribute = TemplateAttribute(attributes=cert_attributes)
cert_format_type = CertificateTypeEnum.X_509
cert_data = (
b'\x30\x82\x03\x12\x30\x82\x01\xFA\xA0\x03\x02\x01\x02\x02\x01\x01'
b'\x30\x0D\x06\x09\x2A\x86\x48\x86\xF7\x0D\x01\x01\x05\x05\x00\x30'
b'\x3B\x31\x0B\x30\x09\x06\x03\x55\x04\x06\x13\x02\x55\x53\x31\x0D'
b'\x30\x0B\x06\x03\x55\x04\x0A\x13\x04\x54\x45\x53\x54\x31\x0E\x30'
b'\x0C\x06\x03\x55\x04\x0B\x13\x05\x4F\x41\x53\x49\x53\x31\x0D\x30'
b'\x0B\x06\x03\x55\x04\x03\x13\x04\x4B\x4D\x49\x50\x30\x1E\x17\x0D'
b'\x31\x30\x31\x31\x30\x31\x32\x33\x35\x39\x35\x39\x5A\x17\x0D\x32'
b'\x30\x31\x31\x30\x31\x32\x33\x35\x39\x35\x39\x5A\x30\x3B\x31\x0B'
b'\x30\x09\x06\x03\x55\x04\x06\x13\x02\x55\x53\x31\x0D\x30\x0B\x06'
b'\x03\x55\x04\x0A\x13\x04\x54\x45\x53\x54\x31\x0E\x30\x0C\x06\x03'
b'\x55\x04\x0B\x13\x05\x4F\x41\x53\x49\x53\x31\x0D\x30\x0B\x06\x03'
b'\x55\x04\x03\x13\x04\x4B\x4D\x49\x50\x30\x82\x01\x22\x30\x0D\x06'
b'\x09\x2A\x86\x48\x86\xF7\x0D\x01\x01\x01\x05\x00\x03\x82\x01\x0F'
b'\x00\x30\x82\x01\x0A\x02\x82\x01\x01\x00\xAB\x7F\x16\x1C\x00\x42'
b'\x49\x6C\xCD\x6C\x6D\x4D\xAD\xB9\x19\x97\x34\x35\x35\x77\x76\x00'
b'\x3A\xCF\x54\xB7\xAF\x1E\x44\x0A\xFB\x80\xB6\x4A\x87\x55\xF8\x00'
b'\x2C\xFE\xBA\x6B\x18\x45\x40\xA2\xD6\x60\x86\xD7\x46\x48\x34\x6D'
b'\x75\xB8\xD7\x18\x12\xB2\x05\x38\x7C\x0F\x65\x83\xBC\x4D\x7D\xC7'
b'\xEC\x11\x4F\x3B\x17\x6B\x79\x57\xC4\x22\xE7\xD0\x3F\xC6\x26\x7F'
b'\xA2\xA6\xF8\x9B\x9B\xEE\x9E\x60\xA1\xD7\xC2\xD8\x33\xE5\xA5\xF4'
b'\xBB\x0B\x14\x34\xF4\xE7\x95\xA4\x11\x00\xF8\xAA\x21\x49\x00\xDF'
b'\x8B\x65\x08\x9F\x98\x13\x5B\x1C\x67\xB7\x01\x67\x5A\xBD\xBC\x7D'
b'\x57\x21\xAA\xC9\xD1\x4A\x7F\x08\x1F\xCE\xC8\x0B\x64\xE8\xA0\xEC'
b'\xC8\x29\x53\x53\xC7\x95\x32\x8A\xBF\x70\xE1\xB4\x2E\x7B\xB8\xB7'
b'\xF4\xE8\xAC\x8C\x81\x0C\xDB\x66\xE3\xD2\x11\x26\xEB\xA8\xDA\x7D'
b'\x0C\xA3\x41\x42\xCB\x76\xF9\x1F\x01\x3D\xA8\x09\xE9\xC1\xB7\xAE'
b'\x64\xC5\x41\x30\xFB\xC2\x1D\x80\xE9\xC2\xCB\x06\xC5\xC8\xD7\xCC'
b'\xE8\x94\x6A\x9A\xC9\x9B\x1C\x28\x15\xC3\x61\x2A\x29\xA8\x2D\x73'
b'\xA1\xF9\x93\x74\xFE\x30\xE5\x49\x51\x66\x2A\x6E\xDA\x29\xC6\xFC'
b'\x41\x13\x35\xD5\xDC\x74\x26\xB0\xF6\x05\x02\x03\x01\x00\x01\xA3'
b'\x21\x30\x1F\x30\x1D\x06\x03\x55\x1D\x0E\x04\x16\x04\x14\x04\xE5'
b'\x7B\xD2\xC4\x31\xB2\xE8\x16\xE1\x80\xA1\x98\x23\xFA\xC8\x58\x27'
b'\x3F\x6B\x30\x0D\x06\x09\x2A\x86\x48\x86\xF7\x0D\x01\x01\x05\x05'
b'\x00\x03\x82\x01\x01\x00\xA8\x76\xAD\xBC\x6C\x8E\x0F\xF0\x17\x21'
b'\x6E\x19\x5F\xEA\x76\xBF\xF6\x1A\x56\x7C\x9A\x13\xDC\x50\xD1\x3F'
b'\xEC\x12\xA4\x27\x3C\x44\x15\x47\xCF\xAB\xCB\x5D\x61\xD9\x91\xE9'
b'\x66\x31\x9D\xF7\x2C\x0D\x41\xBA\x82\x6A\x45\x11\x2F\xF2\x60\x89'
b'\xA2\x34\x4F\x4D\x71\xCF\x7C\x92\x1B\x4B\xDF\xAE\xF1\x60\x0D\x1B'
b'\xAA\xA1\x53\x36\x05\x7E\x01\x4B\x8B\x49\x6D\x4F\xAE\x9E\x8A\x6C'
b'\x1D\xA9\xAE\xB6\xCB\xC9\x60\xCB\xF2\xFA\xE7\x7F\x58\x7E\xC4\xBB'
b'\x28\x20\x45\x33\x88\x45\xB8\x8D\xD9\xAE\xEA\x53\xE4\x82\xA3\x6E'
b'\x73\x4E\x4F\x5F\x03\xB9\xD0\xDF\xC4\xCA\xFC\x6B\xB3\x4E\xA9\x05'
b'\x3E\x52\xBD\x60\x9E\xE0\x1E\x86\xD9\xB0\x9F\xB5\x11\x20\xC1\x98'
b'\x34\xA9\x97\xB0\x9C\xE0\x8D\x79\xE8\x13\x11\x76\x2F\x97\x4B\xB1'
b'\xC8\xC0\x91\x86\xC4\xD7\x89\x33\xE0\xDB\x38\xE9\x05\x08\x48\x77'
b'\xE1\x47\xC7\x8A\xF5\x2F\xAE\x07\x19\x2F\xF1\x66\xD1\x9F\xA9\x4A'
b'\x11\xCC\x11\xB2\x7E\xD0\x50\xF7\xA2\x7F\xAE\x13\xB2\x05\xA5\x74'
b'\xC4\xEE\x00\xAA\x8B\xD6\x5D\x0D\x70\x57\xC9\x85\xC8\x39\xEF\x33'
b'\x6A\x44\x1E\xD5\x3A\x53\xC6\xB6\xB6\x96\xF1\xBD\xEB\x5F\x7E\xA8'
b'\x11\xEB\xB2\x5A\x7F\x86')
cert_obj = Certificate(cert_format_type, cert_data)
cert_result = self.client.register(cert_obj_type,
cert_template_attribute,
cert_obj,
credential=None)
self._check_result_status(cert_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_uuid(cert_result.uuid.value, str)
# Check that the returned key bytes match what was provided
cert_uuid = cert_result.uuid.value
cert_result = self.client.get(uuid=cert_uuid, credential=None)
self._check_result_status(cert_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_object_type(cert_result.object_type.value, ObjectType,
ObjectType.CERTIFICATE)
self._check_uuid(cert_result.uuid.value, str)
# Check the secret type
cert_secret = cert_result.secret
cert_secret_expected = Certificate
self.assertIsInstance(cert_secret, cert_secret_expected)
cert_material = cert_result.secret.certificate_value.value
expected = cert_data
self.assertEqual(expected, cert_material)
self.logger.debug('Destroying cert: ' + cert_name +
'\nWith " "UUID: ' + cert_result.uuid.value)
cert_result = self.client.destroy(cert_result.uuid.value)
self._check_result_status(cert_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_uuid(cert_result.uuid.value, str)
# Verify the secret was destroyed
cert_result_destroyed_result = self.client.get(uuid=cert_uuid,
credential=None)
self._check_result_status(cert_result_destroyed_result, ResultStatus,
ResultStatus.OPERATION_FAILED)
expected = ResultReason
cert_observed = type(cert_result_destroyed_result.result_reason.value)
self.assertEqual(expected, cert_observed)
def test_passphrase_register_get_destroy(self):
"""
Tests that passphrases can be properly registered, retrieved,
and destroyed
"""
# properties copied from test case example :
# http://docs.oasis-open.org/kmip/testcases/v1.1/cn01/kmip-testcases-v1.1-cn01.html#_Toc333488777
pass_obj_type = ObjectType.SECRET_DATA
mask_flags = [CryptographicUsageMask.VERIFY]
attribute_type = AttributeType.CRYPTOGRAPHIC_USAGE_MASK
usage_mask = self.attr_factory.create_attribute(
attribute_type, mask_flags)
name = Attribute.AttributeName('Name')
pass_name = 'Integration Test - Register-Get-Destroy Passphrase'
pass_name_value = Name.NameValue(pass_name)
name_type = Name.NameType(NameType.UNINTERPRETED_TEXT_STRING)
pass_value = Name(name_value=pass_name_value, name_type=name_type)
pass_name_attr = Attribute(attribute_name=name,
attribute_value=pass_value)
pass_attributes = [usage_mask, pass_name_attr]
pass_template_attribute = TemplateAttribute(attributes=pass_attributes)
pass_format_type = SecretData.SecretDataType(SecretDataType.PASSWORD)
key_format_type = KeyFormatType(KeyFormatTypeEnum.OPAQUE)
key_data = b'\x70\x65\x65\x6b\x2d\x61\x2d\x62\x6f\x6f\x21\x21'
key_material = KeyMaterial(key_data)
key_value = KeyValue(key_material)
key_block = KeyBlock(key_format_type=key_format_type,
key_compression_type=None,
key_value=key_value,
key_wrapping_data=None)
pass_obj = SecretData(secret_data_type=pass_format_type,
key_block=key_block)
pass_result = self.client.register(pass_obj_type,
pass_template_attribute,
pass_obj,
credential=None)
self._check_result_status(pass_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_uuid(pass_result.uuid.value, str)
# Check that the returned key bytes match what was provided
pass_uuid = pass_result.uuid.value
pass_result = self.client.get(uuid=pass_uuid, credential=None)
self._check_result_status(pass_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_object_type(pass_result.object_type.value, ObjectType,
ObjectType.SECRET_DATA)
self._check_uuid(pass_result.uuid.value, str)
# Check the secret type
pass_secret = pass_result.secret
pass_secret_expected = SecretData
self.assertIsInstance(pass_secret, pass_secret_expected)
pass_material = pass_result.secret.key_block.key_value.key_material\
.value
expected = key_data
self.assertEqual(expected, pass_material)
self.logger.debug('Destroying cert: ' + pass_name +
'\nWith " "UUID: ' + pass_result.uuid.value)
pass_result = self.client.destroy(pass_result.uuid.value)
self._check_result_status(pass_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_uuid(pass_result.uuid.value, str)
# Verify the secret was destroyed
pass_result_destroyed_result = self.client.get(uuid=pass_uuid,
credential=None)
self._check_result_status(pass_result_destroyed_result, ResultStatus,
ResultStatus.OPERATION_FAILED)
expected = ResultReason
pass_observed = type(pass_result_destroyed_result.result_reason.value)
self.assertEqual(expected, pass_observed)
client.close()
sys.exit()
algorithm_obj = attribute_factory.create_attribute(attribute_type,
algorithm_enum)
mask_flags = [
CryptographicUsageMask.ENCRYPT, CryptographicUsageMask.DECRYPT
]
attribute_type = AttributeType.CRYPTOGRAPHIC_USAGE_MASK
usage_mask = attribute_factory.create_attribute(attribute_type, mask_flags)
attribute_type = AttributeType.CRYPTOGRAPHIC_LENGTH
length_obj = attribute_factory.create_attribute(attribute_type, length)
name = Attribute.AttributeName('Name')
name_value = Name.NameValue('Test Key')
name_type = Name.NameType(NameType.UNINTERPRETED_TEXT_STRING)
value = Name(name_value=name_value, name_type=name_type)
name = Attribute(attribute_name=name, attribute_value=value)
attributes = [algorithm_obj, usage_mask, length_obj, name]
if opts.operation_policy_name is not None:
opn = attribute_factory.create_attribute(
enums.AttributeType.OPERATION_POLICY_NAME,
opts.operation_policy_name)
attributes.append(opn)
template_attribute = TemplateAttribute(attributes=attributes)
def test_public_key_register_get_destroy(self):
"""
Tests that public keys are properly registered, retrieved,
and destroyed.
"""
pub_key_object_type = ObjectType.PUBLIC_KEY
mask_flags = [
CryptographicUsageMask.ENCRYPT, CryptographicUsageMask.DECRYPT
]
attribute_type = AttributeType.CRYPTOGRAPHIC_USAGE_MASK
usage_mask = self.attr_factory.create_attribute(
attribute_type, mask_flags)
name = Attribute.AttributeName('Name')
key_name = 'Integration Test - Register-Get-Destroy Key -'
pub_name_value = Name.NameValue(key_name + " Public")
name_type = Name.NameType(NameType.UNINTERPRETED_TEXT_STRING)
pub_value = Name(name_value=pub_name_value, name_type=name_type)
pub_name = Attribute(attribute_name=name, attribute_value=pub_value)
pub_key_attributes = [usage_mask, pub_name]
public_template_attribute = TemplateAttribute(
attributes=pub_key_attributes)
key_format_type = KeyFormatType(KeyFormatTypeEnum.RAW)
key_data = (
b'\x30\x81\x9F\x30\x0D\x06\x09\x2A\x86\x48\x86\xF7\x0D\x01\x01\x01'
b'\x05\x00\x03\x81\x8D\x00\x30\x81\x89\x02\x81\x81\x00\x93\x04\x51'
b'\xC9\xEC\xD9\x4F\x5B\xB9\xDA\x17\xDD\x09\x38\x1B\xD2\x3B\xE4\x3E'
b'\xCA\x8C\x75\x39\xF3\x01\xFC\x8A\x8C\xD5\xD5\x27\x4C\x3E\x76\x99'
b'\xDB\xDC\x71\x1C\x97\xA7\xAA\x91\xE2\xC5\x0A\x82\xBD\x0B\x10\x34'
b'\xF0\xDF\x49\x3D\xEC\x16\x36\x24\x27\xE5\x8A\xCC\xE7\xF6\xCE\x0F'
b'\x9B\xCC\x61\x7B\xBD\x8C\x90\xD0\x09\x4A\x27\x03\xBA\x0D\x09\xEB'
b'\x19\xD1\x00\x5F\x2F\xB2\x65\x52\x6A\xAC\x75\xAF\x32\xF8\xBC\x78'
b'\x2C\xDE\xD2\xA5\x7F\x81\x1E\x03\xEA\xF6\x7A\x94\x4D\xE5\xE7\x84'
b'\x13\xDC\xA8\xF2\x32\xD0\x74\xE6\xDC\xEA\x4C\xEC\x9F\x02\x03\x01'
b'\x00\x01')
key_material = KeyMaterial(key_data)
key_value = KeyValue(key_material)
algorithm_value = CryptoAlgorithmEnum.RSA
cryptographic_algorithm = CryptographicAlgorithm(algorithm_value)
cryptographic_length = CryptographicLength(2048)
key_block = KeyBlock(key_format_type=key_format_type,
key_compression_type=None,
key_value=key_value,
cryptographic_algorithm=cryptographic_algorithm,
cryptographic_length=cryptographic_length,
key_wrapping_data=None)
pub_secret = PublicKey(key_block)
pub_key_result = self.client.register(pub_key_object_type,
public_template_attribute,
pub_secret,
credential=None)
self._check_result_status(pub_key_result, ResultStatus,
ResultStatus.SUCCESS)
# Check that the returned key bytes match what was provided
pub_uuid = pub_key_result.uuid.value
pub_key_result = self.client.get(uuid=pub_uuid, credential=None)
self._check_result_status(pub_key_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_object_type(pub_key_result.object_type.value, ObjectType,
ObjectType.PUBLIC_KEY)
self._check_uuid(pub_key_result.uuid.value, str)
# Check the secret type
pub_secret = pub_key_result.secret
pub_expected = PublicKey
self.assertIsInstance(pub_secret, pub_expected)
pub_key_block = pub_key_result.secret.key_block
pub_key_value = pub_key_block.key_value
pub_key_material = pub_key_value.key_material
expected = key_data
pub_observed = pub_key_material.value
self.assertEqual(expected, pub_observed)
self.logger.debug('Destroying key: ' + key_name + " Public" +
'\nWith " "UUID: ' + pub_key_result.uuid.value)
pub_result = self.client.destroy(pub_key_result.uuid.value)
self._check_result_status(pub_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_uuid(pub_result.uuid.value, str)
pub_key_destroyed_result = self.client.get(uuid=pub_uuid,
credential=None)
self._check_result_status(pub_key_destroyed_result, ResultStatus,
ResultStatus.OPERATION_FAILED)
expected = ResultReason
pub_observed = type(pub_key_destroyed_result.result_reason.value)
self.assertEqual(expected, pub_observed)
def test_private_key_register_get_destroy(self):
"""
Tests that private keys are properly registered, retrieved,
and destroyed.
"""
priv_key_object_type = ObjectType.PRIVATE_KEY
mask_flags = [
CryptographicUsageMask.ENCRYPT, CryptographicUsageMask.DECRYPT
]
attribute_type = AttributeType.CRYPTOGRAPHIC_USAGE_MASK
usage_mask = self.attr_factory.create_attribute(
attribute_type, mask_flags)
name = Attribute.AttributeName('Name')
key_name = 'Integration Test - Register-Get-Destroy Key -'
priv_name_value = Name.NameValue(key_name + " Private")
name_type = Name.NameType(NameType.UNINTERPRETED_TEXT_STRING)
priv_value = Name(name_value=priv_name_value, name_type=name_type)
priv_name = Attribute(attribute_name=name, attribute_value=priv_value)
priv_key_attributes = [usage_mask, priv_name]
private_template_attribute = TemplateAttribute(
attributes=priv_key_attributes)
key_format_type = KeyFormatType(KeyFormatTypeEnum.RAW)
key_data = (
b'\x30\x82\x02\x76\x02\x01\x00\x30\x0D\x06\x09\x2A\x86\x48\x86\xF7'
b'\x0D\x01\x01\x01\x05\x00\x04\x82\x02\x60\x30\x82\x02\x5C\x02\x01'
b'\x00\x02\x81\x81\x00\x93\x04\x51\xC9\xEC\xD9\x4F\x5B\xB9\xDA\x17'
b'\xDD\x09\x38\x1B\xD2\x3B\xE4\x3E\xCA\x8C\x75\x39\xF3\x01\xFC\x8A'
b'\x8C\xD5\xD5\x27\x4C\x3E\x76\x99\xDB\xDC\x71\x1C\x97\xA7\xAA\x91'
b'\xE2\xC5\x0A\x82\xBD\x0B\x10\x34\xF0\xDF\x49\x3D\xEC\x16\x36\x24'
b'\x27\xE5\x8A\xCC\xE7\xF6\xCE\x0F\x9B\xCC\x61\x7B\xBD\x8C\x90\xD0'
b'\x09\x4A\x27\x03\xBA\x0D\x09\xEB\x19\xD1\x00\x5F\x2F\xB2\x65\x52'
b'\x6A\xAC\x75\xAF\x32\xF8\xBC\x78\x2C\xDE\xD2\xA5\x7F\x81\x1E\x03'
b'\xEA\xF6\x7A\x94\x4D\xE5\xE7\x84\x13\xDC\xA8\xF2\x32\xD0\x74\xE6'
b'\xDC\xEA\x4C\xEC\x9F\x02\x03\x01\x00\x01\x02\x81\x80\x0B\x6A\x7D'
b'\x73\x61\x99\xEA\x48\xA4\x20\xE4\x53\x7C\xA0\xC7\xC0\x46\x78\x4D'
b'\xCB\xEA\xA6\x3B\xAE\xBC\x0B\xC1\x32\x78\x74\x49\xCD\xE8\xD7\xCA'
b'\xD0\xC0\xC8\x63\xC0\xFE\xFB\x06\xC3\x06\x2B\xEF\xC5\x00\x33\xEC'
b'\xF8\x7B\x4E\x33\xA9\xBE\x7B\xCB\xC8\xF1\x51\x1A\xE2\x15\xE8\x0D'
b'\xEB\x5D\x8A\xF2\xBD\x31\x31\x9D\x78\x21\x19\x66\x40\x93\x5A\x0C'
b'\xD6\x7C\x94\x59\x95\x79\xF2\x10\x0D\x65\xE0\x38\x83\x1F\xDA\xFB'
b'\x0D\xBE\x2B\xBD\xAC\x00\xA6\x96\xE6\x7E\x75\x63\x50\xE1\xC9\x9A'
b'\xCE\x11\xA3\x6D\xAB\xAC\x3E\xD3\xE7\x30\x96\x00\x59\x02\x41\x00'
b'\xDD\xF6\x72\xFB\xCC\x5B\xDA\x3D\x73\xAF\xFC\x4E\x79\x1E\x0C\x03'
b'\x39\x02\x24\x40\x5D\x69\xCC\xAA\xBC\x74\x9F\xAA\x0D\xCD\x4C\x25'
b'\x83\xC7\x1D\xDE\x89\x41\xA7\xB9\xAA\x03\x0F\x52\xEF\x14\x51\x46'
b'\x6C\x07\x4D\x4D\x33\x8F\xE6\x77\x89\x2A\xCD\x9E\x10\xFD\x35\xBD'
b'\x02\x41\x00\xA9\x8F\xBC\x3E\xD6\xB4\xC6\xF8\x60\xF9\x71\x65\xAC'
b'\x2F\x7B\xB6\xF2\xE2\xCB\x19\x2A\x9A\xBD\x49\x79\x5B\xE5\xBC\xF3'
b'\x7D\x8E\xE6\x9A\x6E\x16\x9C\x24\xE5\xC3\x2E\x4E\x7F\xA3\x32\x65'
b'\x46\x14\x07\xF9\x52\xBA\x49\xE2\x04\x81\x8A\x2F\x78\x5F\x11\x3F'
b'\x92\x2B\x8B\x02\x40\x25\x3F\x94\x70\x39\x0D\x39\x04\x93\x03\x77'
b'\x7D\xDB\xC9\x75\x0E\x9D\x64\x84\x9C\xE0\x90\x3E\xAE\x70\x4D\xC9'
b'\xF5\x89\xB7\x68\x0D\xEB\x9D\x60\x9F\xD5\xBC\xD4\xDE\xCD\x6F\x12'
b'\x05\x42\xE5\xCF\xF5\xD7\x6F\x2A\x43\xC8\x61\x5F\xB5\xB3\xA9\x21'
b'\x34\x63\x79\x7A\xA9\x02\x41\x00\xA1\xDD\xF0\x23\xC0\xCD\x94\xC0'
b'\x19\xBB\x26\xD0\x9B\x9E\x3C\xA8\xFA\x97\x1C\xB1\x6A\xA5\x8B\x9B'
b'\xAF\x79\xD6\x08\x1A\x1D\xBB\xA4\x52\xBA\x53\x65\x3E\x28\x04\xBA'
b'\x98\xFF\x69\xE8\xBB\x1B\x3A\x16\x1E\xA2\x25\xEA\x50\x14\x63\x21'
b'\x6A\x8D\xAB\x9B\x88\xA7\x5E\x5F\x02\x40\x61\x78\x64\x6E\x11\x2C'
b'\xF7\x9D\x92\x1A\x8A\x84\x3F\x17\xF6\xE7\xFF\x97\x4F\x68\x81\x22'
b'\x36\x5B\xF6\x69\x0C\xDF\xC9\x96\xE1\x89\x09\x52\xEB\x38\x20\xDD'
b'\x18\x90\xEC\x1C\x86\x19\xE8\x7A\x2B\xD3\x8F\x9D\x03\xB3\x7F\xAC'
b'\x74\x2E\xFB\x74\x8C\x78\x85\x94\x2C\x39')
key_material = KeyMaterial(key_data)
key_value = KeyValue(key_material)
algorithm_value = CryptoAlgorithmEnum.RSA
cryptographic_algorithm = CryptographicAlgorithm(algorithm_value)
cryptographic_length = CryptographicLength(2048)
key_block = KeyBlock(key_format_type=key_format_type,
key_compression_type=None,
key_value=key_value,
cryptographic_algorithm=cryptographic_algorithm,
cryptographic_length=cryptographic_length,
key_wrapping_data=None)
priv_secret = PrivateKey(key_block)
priv_key_result = self.client.register(priv_key_object_type,
private_template_attribute,
priv_secret,
credential=None)
self._check_result_status(priv_key_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_uuid(priv_key_result.uuid.value, str)
# Check that the returned key bytes match what was provided
priv_uuid = priv_key_result.uuid.value
priv_key_result = self.client.get(uuid=priv_uuid, credential=None)
self._check_result_status(priv_key_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_object_type(priv_key_result.object_type.value, ObjectType,
ObjectType.PRIVATE_KEY)
self._check_uuid(priv_key_result.uuid.value, str)
# Check the secret type
priv_secret = priv_key_result.secret
priv_expected = PrivateKey
self.assertIsInstance(priv_secret, priv_expected)
priv_key_block = priv_key_result.secret.key_block
priv_key_value = priv_key_block.key_value
priv_key_material = priv_key_value.key_material
expected = key_data
priv_observed = priv_key_material.value
self.assertEqual(expected, priv_observed)
self.logger.debug('Destroying key: ' + key_name + " Private" +
'\nWith " "UUID: ' + priv_key_result.uuid.value)
priv_result = self.client.destroy(priv_key_result.uuid.value)
self._check_result_status(priv_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_uuid(priv_result.uuid.value, str)
# Verify the secret was destroyed
priv_key_destroyed_result = self.client.get(uuid=priv_uuid,
credential=None)
self._check_result_status(priv_key_destroyed_result, ResultStatus,
ResultStatus.OPERATION_FAILED)
expected = ResultReason
priv_observed = type(priv_key_destroyed_result.result_reason.value)
self.assertEqual(expected, priv_observed)
def test_symmetric_key_register_get_destroy(self):
"""
Tests that symmetric keys are properly registered, retrieved,
and destroyed.
"""
object_type = ObjectType.SYMMETRIC_KEY
algorithm_value = CryptoAlgorithmEnum.AES
mask_flags = [
CryptographicUsageMask.ENCRYPT, CryptographicUsageMask.DECRYPT
]
attribute_type = AttributeType.CRYPTOGRAPHIC_USAGE_MASK
usage_mask = self.attr_factory.create_attribute(
attribute_type, mask_flags)
name = Attribute.AttributeName('Name')
key_name = 'Integration Test - Register-Get-Destroy Key'
name_value = Name.NameValue(key_name)
name_type = Name.NameType(NameType.UNINTERPRETED_TEXT_STRING)
value = Name(name_value=name_value, name_type=name_type)
name = Attribute(attribute_name=name, attribute_value=value)
attributes = [usage_mask, name]
template_attribute = TemplateAttribute(attributes=attributes)
key_format_type = KeyFormatType(KeyFormatTypeEnum.RAW)
key_data = (
b'\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00'
b'\x00')
key_material = KeyMaterial(key_data)
key_value = KeyValue(key_material)
cryptographic_algorithm = CryptographicAlgorithm(algorithm_value)
cryptographic_length = CryptographicLength(128)
key_block = KeyBlock(key_format_type=key_format_type,
key_compression_type=None,
key_value=key_value,
cryptographic_algorithm=cryptographic_algorithm,
cryptographic_length=cryptographic_length,
key_wrapping_data=None)
secret = SymmetricKey(key_block)
result = self.client.register(object_type,
template_attribute,
secret,
credential=None)
self._check_result_status(result, ResultStatus, ResultStatus.SUCCESS)
self._check_uuid(result.uuid.value, str)
# Check that the returned key bytes match what was provided
uuid = result.uuid.value
result = self.client.get(uuid=uuid, credential=None)
self._check_result_status(result, ResultStatus, ResultStatus.SUCCESS)
self._check_object_type(result.object_type.value, ObjectType,
ObjectType.SYMMETRIC_KEY)
self._check_uuid(result.uuid.value, str)
# Check the secret type
secret = result.secret
expected = SymmetricKey
self.assertIsInstance(secret, expected)
key_block = result.secret.key_block
key_value = key_block.key_value
key_material = key_value.key_material
expected = key_data
observed = key_material.value
self.assertEqual(expected, observed)
self.logger.debug('Destroying key: ' + key_name + '\nWith UUID: ' +
result.uuid.value)
result = self.client.destroy(result.uuid.value)
self._check_result_status(result, ResultStatus, ResultStatus.SUCCESS)
self._check_uuid(result.uuid.value, str)
# Verify the secret was destroyed
result = self.client.get(uuid=uuid, credential=None)
self._check_result_status(result, ResultStatus,
ResultStatus.OPERATION_FAILED)
expected = ResultReason
observed = type(result.result_reason.value)
self.assertEqual(expected, observed)
expected = ResultReason.ITEM_NOT_FOUND
observed = result.result_reason.value
self.assertEqual(expected, observed)
def test_opaque_data_register_get_destroy(self):
"""
Tests that opaque objects can be properly registered, retrieved,
and destroyed
"""
opaque_obj_type = ObjectType.OPAQUE_DATA
opaque_obj_data_type = OpaqueObject.OpaqueDataType(OpaqueDataType.NONE)
name = Attribute.AttributeName('Name')
opaque_obj_name = 'Integration Test - Register-Get-Destroy Opaque Data'
opaque_obj_name_value = Name.NameValue(opaque_obj_name)
name_type = Name.NameType(NameType.UNINTERPRETED_TEXT_STRING)
opaque_obj_value = Name(name_value=opaque_obj_name_value,
name_type=name_type)
opaque_obj_name_attr = Attribute(attribute_name=name,
attribute_value=opaque_obj_value)
opaque_obj_attributes = [opaque_obj_name_attr]
opaque_obj_template_attribute = TemplateAttribute(
attributes=opaque_obj_attributes)
opaque_obj_data = OpaqueObject.OpaqueDataValue((
b'\x30\x82\x03\x12\x30\x82\x01\xFA\xA0\x03\x02\x01\x02\x02\x01\x01'
b'\x30\x0D\x06\x09\x2A\x86\x48\x86\xF7\x0D\x01\x01\x05\x05\x00\x30'
b'\x3B\x31\x0B\x30\x09\x06\x03\x55\x04\x06\x13\x02\x55\x53\x31\x0D'
b'\x30\x0B\x06\x03\x55\x04\x0A\x13\x04\x54\x45\x53\x54\x31\x0E\x30'
))
opaque_obj = OpaqueObject(opaque_data_type=opaque_obj_data_type,
opaque_data_value=opaque_obj_data)
opaque_obj_result = self.client.register(opaque_obj_type,
opaque_obj_template_attribute,
opaque_obj,
credential=None)
self._check_result_status(opaque_obj_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_uuid(opaque_obj_result.uuid.value, str)
# Check that the returned key bytes match what was provided
opaque_obj_uuid = opaque_obj_result.uuid.value
opaque_obj_result = self.client.get(uuid=opaque_obj_uuid,
credential=None)
self._check_result_status(opaque_obj_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_object_type(opaque_obj_result.object_type.value,
ObjectType, ObjectType.OPAQUE_DATA)
self._check_uuid(opaque_obj_result.uuid.value, str)
# Check the secret type
opaque_obj_secret = opaque_obj_result.secret
opaque_obj_secret_expected = OpaqueObject
self.assertIsInstance(opaque_obj_secret, opaque_obj_secret_expected)
opaque_obj_material = opaque_obj_result.secret.opaque_data_value.value
expected = opaque_obj_data.value
self.assertEqual(expected, opaque_obj_material)
self.logger.debug('Destroying opaque object: ' + opaque_obj_name +
'\nWith " "UUID: ' + opaque_obj_result.uuid.value)
opaque_obj_result = self.client.destroy(opaque_obj_result.uuid.value)
self._check_result_status(opaque_obj_result, ResultStatus,
ResultStatus.SUCCESS)
self._check_uuid(opaque_obj_result.uuid.value, str)
# Verify the secret was destroyed
opaque_obj_result_destroyed_result = self.client.get(
uuid=opaque_obj_uuid, credential=None)
self._check_result_status(opaque_obj_result_destroyed_result,
ResultStatus, ResultStatus.OPERATION_FAILED)
expected = ResultReason
opaque_obj_observed = \
type(opaque_obj_result_destroyed_result.result_reason.value)
self.assertEqual(expected, opaque_obj_observed)
