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PyKMIP/kmip/core/messages/payloads/decrypt.py
Peter Hamilton 77d5b32ea4 Add payload base classes to prepare for simplifying the client 
This change adds payload request and response base classes to
prepare for future simplification updates to the current client
architecture. No new tests are required for this change.
2019-11-12 17:43:57 -05:00

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Python
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# Copyright (c) 2017 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 six
from kmip.core import attributes
from kmip.core import enums
from kmip.core import primitives
from kmip.core import utils
from kmip.core.messages.payloads import base
class DecryptRequestPayload(base.RequestPayload):
"""
A request payload for the Decrypt operation.
Attributes:
unique_identifier: The unique ID of the managed object to be used for
decryption.
cryptographic_parameters: A collection of settings relevant for
the decryption operation.
data: The data to be decrypted in the form of a binary string.
iv_counter_nonce: An IV/counter/nonce to be used with the decryption
algorithm. Comes in the form of a binary string.
auth_additional_data: Any additional data to be authenticated via the
Authenticated Encryption Tag. Added in KMIP 1.4.
auth_tag: Specifies the tag that will be needed to
authenticate the decrypted data. Only returned on completion
of the encryption of the last of the plaintext by an
authenticated encryption cipher. Optional, defaults to None.
Added in KMIP 1.4.
"""
def __init__(self,
unique_identifier=None,
cryptographic_parameters=None,
data=None,
iv_counter_nonce=None,
auth_additional_data=None,
auth_tag=None):
"""
Construct a Decrypt request payload struct.
Args:
unique_identifier (string): The ID of the managed object (e.g.,
a symmetric key) to be used for decryption. Optional, defaults
to None. If not included, the ID placeholder will be used.
cryptographic_parameters (CryptographicParameters): A
CryptographicParameters struct containing the settings for
the decryption algorithm. Optional, defaults to None. If not
included, the CryptographicParameters associated with the
managed object will be used instead.
data (bytes): The data to decrypt in binary form. Required for
encoding and decoding.
iv_counter_nonce (bytes): The IV/counter/nonce value to be used
with the decryption algorithm. Optional, defaults to None.
auth_additional_data (bytes): Any additional data to be
authenticated via the Authenticated Encryption Tag.
Added in KMIP 1.4.
auth_tag (bytes): Specifies the tag that will be needed to
authenticate the decrypted data. Only returned on completion
of the encryption of the last of the plaintext by an
authenticated encryption cipher. Optional, defaults to None.
Added in KMIP 1.4.
"""
super(DecryptRequestPayload, self).__init__()
self._unique_identifier = None
self._cryptographic_parameters = None
self._data = None
self._iv_counter_nonce = None
self._auth_additional_data = None
self._auth_tag = None
self.unique_identifier = unique_identifier
self.cryptographic_parameters = cryptographic_parameters
self.data = data
self.iv_counter_nonce = iv_counter_nonce
self.auth_additional_data = auth_additional_data
self.auth_tag = auth_tag
@property
def unique_identifier(self):
if self._unique_identifier:
return self._unique_identifier.value
else:
return None
@unique_identifier.setter
def unique_identifier(self, value):
if value is None:
self._unique_identifier = None
elif isinstance(value, six.string_types):
self._unique_identifier = primitives.TextString(
value=value,
tag=enums.Tags.UNIQUE_IDENTIFIER
)
else:
raise TypeError("unique identifier must be a string")
@property
def cryptographic_parameters(self):
return self._cryptographic_parameters
@cryptographic_parameters.setter
def cryptographic_parameters(self, value):
if value is None:
self._cryptographic_parameters = None
elif isinstance(value, attributes.CryptographicParameters):
self._cryptographic_parameters = value
else:
raise TypeError(
"cryptographic parameters must be a CryptographicParameters "
"struct"
)
@property
def data(self):
if self._data:
return self._data.value
else:
return None
@data.setter
def data(self, value):
if value is None:
self._data = None
elif isinstance(value, six.binary_type):
self._data = primitives.ByteString(
value=value,
tag=enums.Tags.DATA
)
else:
raise TypeError("data must be bytes")
@property
def iv_counter_nonce(self):
if self._iv_counter_nonce:
return self._iv_counter_nonce.value
else:
return None
@iv_counter_nonce.setter
def iv_counter_nonce(self, value):
if value is None:
self._iv_counter_nonce = None
elif isinstance(value, six.binary_type):
self._iv_counter_nonce = primitives.ByteString(
value=value,
tag=enums.Tags.IV_COUNTER_NONCE
)
else:
raise TypeError("IV/counter/nonce must be bytes")
@property
def auth_additional_data(self):
if self._auth_additional_data:
return self._auth_additional_data.value
else:
return None
@auth_additional_data.setter
def auth_additional_data(self, value):
if value is None:
self._auth_additional_data = None
elif isinstance(value, six.binary_type):
self._auth_additional_data = primitives.ByteString(
value=value,
tag=enums.Tags.AUTHENTICATED_ENCRYPTION_ADDITIONAL_DATA
)
else:
raise TypeError("authenticated additional data must be bytes")
@property
def auth_tag(self):
if self._auth_tag:
return self._auth_tag.value
else:
return None
@auth_tag.setter
def auth_tag(self, value):
if value is None:
self._auth_tag = None
elif isinstance(value, six.binary_type):
self._auth_tag = primitives.ByteString(
value=value,
tag=enums.Tags.AUTHENTICATED_ENCRYPTION_TAG
)
else:
raise TypeError("authenticated encryption tag must be bytes")
def read(self, input_stream, kmip_version=enums.KMIPVersion.KMIP_1_0):
"""
Read the data encoding the Decrypt request payload and decode it
into its constituent parts.
Args:
input_stream (stream): A data stream containing encoded object
data, supporting a read method; usually a BytearrayStream
object.
kmip_version (KMIPVersion): An enumeration defining the KMIP
version with which the object will be decoded. Optional,
defaults to KMIP 1.0.
Raises:
ValueError: Raised if the data attribute is missing from the
encoded payload.
"""
super(DecryptRequestPayload, self).read(
input_stream,
kmip_version=kmip_version
)
local_stream = utils.BytearrayStream(input_stream.read(self.length))
if self.is_tag_next(enums.Tags.UNIQUE_IDENTIFIER, local_stream):
self._unique_identifier = primitives.TextString(
tag=enums.Tags.UNIQUE_IDENTIFIER
)
self._unique_identifier.read(
local_stream,
kmip_version=kmip_version
)
if self.is_tag_next(
enums.Tags.CRYPTOGRAPHIC_PARAMETERS,
local_stream
):
self._cryptographic_parameters = \
attributes.CryptographicParameters()
self._cryptographic_parameters.read(
local_stream,
kmip_version=kmip_version
)
if self.is_tag_next(enums.Tags.DATA, local_stream):
self._data = primitives.ByteString(tag=enums.Tags.DATA)
self._data.read(local_stream, kmip_version=kmip_version)
else:
raise ValueError("invalid payload missing the data attribute")
if self.is_tag_next(enums.Tags.IV_COUNTER_NONCE, local_stream):
self._iv_counter_nonce = primitives.ByteString(
tag=enums.Tags.IV_COUNTER_NONCE
)
self._iv_counter_nonce.read(
local_stream,
kmip_version=kmip_version
)
if kmip_version >= enums.KMIPVersion.KMIP_1_4:
if self.is_tag_next(
enums.Tags.AUTHENTICATED_ENCRYPTION_ADDITIONAL_DATA,
local_stream
):
self._auth_additional_data = primitives.ByteString(
tag=enums.Tags.AUTHENTICATED_ENCRYPTION_ADDITIONAL_DATA
)
self._auth_additional_data.read(
local_stream,
kmip_version=kmip_version
)
if self.is_tag_next(
enums.Tags.AUTHENTICATED_ENCRYPTION_TAG, local_stream
):
self._auth_tag = primitives.ByteString(
tag=enums.Tags.AUTHENTICATED_ENCRYPTION_TAG
)
self._auth_tag.read(
local_stream,
kmip_version=kmip_version
)
self.is_oversized(local_stream)
def write(self, output_stream, kmip_version=enums.KMIPVersion.KMIP_1_0):
"""
Write the data encoding the Decrypt request payload to a stream.
Args:
output_stream (stream): A data stream in which to encode object
data, supporting a write method; usually a BytearrayStream
object.
kmip_version (KMIPVersion): An enumeration defining the KMIP
version with which the object will be encoded. Optional,
defaults to KMIP 1.0.
Raises:
ValueError: Raised if the data attribute is not defined.
"""
local_stream = utils.BytearrayStream()
if self._unique_identifier:
self._unique_identifier.write(
local_stream,
kmip_version=kmip_version
)
if self._cryptographic_parameters:
self._cryptographic_parameters.write(
local_stream,
kmip_version=kmip_version
)
if self._data:
self._data.write(local_stream, kmip_version=kmip_version)
else:
raise ValueError("invalid payload missing the data attribute")
if self._iv_counter_nonce:
self._iv_counter_nonce.write(
local_stream,
kmip_version=kmip_version
)
if kmip_version >= enums.KMIPVersion.KMIP_1_4:
if self._auth_additional_data:
self._auth_additional_data.write(
local_stream,
kmip_version=kmip_version
)
if self._auth_tag:
self._auth_tag.write(
local_stream,
kmip_version=kmip_version
)
self.length = local_stream.length()
super(DecryptRequestPayload, self).write(
output_stream,
kmip_version=kmip_version
)
output_stream.write(local_stream.buffer)
def __eq__(self, other):
if isinstance(other, DecryptRequestPayload):
if self.unique_identifier != other.unique_identifier:
return False
elif self.cryptographic_parameters != \
other.cryptographic_parameters:
return False
elif self.data != other.data:
return False
elif self.iv_counter_nonce != other.iv_counter_nonce:
return False
elif self.auth_additional_data != other.auth_additional_data:
return False
elif self.auth_tag != other.auth_tag:
return False
else:
return True
else:
return NotImplemented
def __ne__(self, other):
if isinstance(other, DecryptRequestPayload):
return not (self == other)
else:
return NotImplemented
def __repr__(self):
args = ", ".join([
"unique_identifier='{0}'".format(self.unique_identifier),
"cryptographic_parameters={0}".format(
repr(self.cryptographic_parameters)
),
"data={0}".format(self.data),
"iv_counter_nonce={0}".format(self.iv_counter_nonce),
"auth_additional_data={0}".format(self.auth_additional_data),
"auth_tag={0}".format(self.auth_tag)
])
return "DecryptRequestPayload({0})".format(args)
def __str__(self):
return str({
'unique_identifier': self.unique_identifier,
'cryptographic_parameters': self.cryptographic_parameters,
'data': self.data,
'iv_counter_nonce': self.iv_counter_nonce,
'auth_additional_data': self.auth_additional_data,
'auth_tag': self.auth_tag
})
class DecryptResponsePayload(base.ResponsePayload):
"""
A response payload for the Decrypt operation.
Attributes:
unique_identifier: The unique ID of the managed object used for the
decryption.
data: The decrypted data in the form of a binary string.
"""
def __init__(self,
unique_identifier=None,
data=None):
"""
Construct a Decrypt response payload struct.
Args:
unique_identifier (string): The ID of the managed object (e.g.,
a symmetric key) used for decryption. Required for encoding
and decoding.
data (bytes): The decrypted data in binary form. Required for
encoding and decoding.
"""
super(DecryptResponsePayload, self).__init__()
self._unique_identifier = None
self._data = None
self.unique_identifier = unique_identifier
self.data = data
@property
def unique_identifier(self):
if self._unique_identifier:
return self._unique_identifier.value
else:
return None
@unique_identifier.setter
def unique_identifier(self, value):
if value is None:
self._unique_identifier = None
elif isinstance(value, six.string_types):
self._unique_identifier = primitives.TextString(
value=value,
tag=enums.Tags.UNIQUE_IDENTIFIER
)
else:
raise TypeError("unique identifier must be a string")
@property
def data(self):
if self._data:
return self._data.value
else:
return None
@data.setter
def data(self, value):
if value is None:
self._data = None
elif isinstance(value, six.binary_type):
self._data = primitives.ByteString(
value=value,
tag=enums.Tags.DATA
)
else:
raise TypeError("data must be bytes")
def read(self, input_stream, kmip_version=enums.KMIPVersion.KMIP_1_0):
"""
Read the data encoding the Decrypt response payload and decode it
into its constituent parts.
Args:
input_stream (stream): A data stream containing encoded object
data, supporting a read method; usually a BytearrayStream
object.
kmip_version (KMIPVersion): An enumeration defining the KMIP
version with which the object will be decoded. Optional,
defaults to KMIP 1.0.
Raises:
ValueError: Raised if the unique_identifier or data attributes
are missing from the encoded payload.
"""
super(DecryptResponsePayload, self).read(
input_stream,
kmip_version=kmip_version
)
local_stream = utils.BytearrayStream(input_stream.read(self.length))
if self.is_tag_next(enums.Tags.UNIQUE_IDENTIFIER, local_stream):
self._unique_identifier = primitives.TextString(
tag=enums.Tags.UNIQUE_IDENTIFIER
)
self._unique_identifier.read(
local_stream,
kmip_version=kmip_version
)
else:
raise ValueError(
"invalid payload missing the unique identifier attribute"
)
if self.is_tag_next(enums.Tags.DATA, local_stream):
self._data = primitives.ByteString(tag=enums.Tags.DATA)
self._data.read(local_stream, kmip_version=kmip_version)
else:
raise ValueError("invalid payload missing the data attribute")
self.is_oversized(local_stream)
def write(self, output_stream, kmip_version=enums.KMIPVersion.KMIP_1_0):
"""
Write the data encoding the Decrypt response payload to a stream.
Args:
output_stream (stream): A data stream in which to encode object
data, supporting a write method; usually a BytearrayStream
object.
kmip_version (KMIPVersion): An enumeration defining the KMIP
version with which the object will be encoded. Optional,
defaults to KMIP 1.0.
Raises:
ValueError: Raised if the unique_identifier or data attributes
are not defined.
"""
local_stream = utils.BytearrayStream()
if self._unique_identifier:
self._unique_identifier.write(
local_stream,
kmip_version=kmip_version
)
else:
raise ValueError(
"invalid payload missing the unique identifier attribute"
)
if self._data:
self._data.write(local_stream, kmip_version=kmip_version)
else:
raise ValueError("invalid payload missing the data attribute")
self.length = local_stream.length()
super(DecryptResponsePayload, self).write(
output_stream,
kmip_version=kmip_version
)
output_stream.write(local_stream.buffer)
def __eq__(self, other):
if isinstance(other, DecryptResponsePayload):
if self.unique_identifier != other.unique_identifier:
return False
elif self.data != other.data:
return False
else:
return True
else:
return NotImplemented
def __ne__(self, other):
if isinstance(other, DecryptResponsePayload):
return not (self == other)
else:
return NotImplemented
def __repr__(self):
args = ", ".join([
"unique_identifier='{0}'".format(self.unique_identifier),
"data={0}".format(self.data)
])
return "DecryptResponsePayload({0})".format(args)
def __str__(self):
return str({
'unique_identifier': self.unique_identifier,
'data': self.data
})
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