google/auth/crypt.py - platform/external/python/google-auth-library-python - Git at Google

 # Copyright 2016 Google Inc.
 #
 # 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.

 """Cryptography helpers for verifying and signing messages.

 Uses the ``rsa``, ``pyasn1`` and ``pyasn1_modules`` packages
 to parse PEM files storing PKCS#1 or PKCS#8 keys as well as
 certificates. There is no support for p12 files.

 The simplest way to verify signatures is using :func:`verify_signature`::

     cert = open('certs.pem').read()
     valid = crypt.verify_signature(message, signature, cert)

 If you're going to verify many messages with the same certificate, you can use
 :class:`Verifier`::

     cert = open('certs.pem').read()
     verifier = crypt.Verifier.from_string(cert)
     valid = verifier.verify(message, signature)


 To sign messages use :class:`Signer` with a private key::

     private_key = open('private_key.pem').read()
     signer = crypt.Signer(private_key)
     signature = signer.sign(message)

 """
 import io
 import json

 from pyasn1.codec.der import decoder
 from pyasn1_modules import pem
 from pyasn1_modules.rfc2459 import Certificate
 from pyasn1_modules.rfc5208 import PrivateKeyInfo
 import rsa
 import six

 from google.auth import _helpers

 _POW2 = (128, 64, 32, 16, 8, 4, 2, 1)
 _CERTIFICATE_MARKER = b'-----BEGIN CERTIFICATE-----'
 _PKCS1_MARKER = ('-----BEGIN RSA PRIVATE KEY-----',
                  '-----END RSA PRIVATE KEY-----')
 _PKCS8_MARKER = ('-----BEGIN PRIVATE KEY-----',
                  '-----END PRIVATE KEY-----')
 _PKCS8_SPEC = PrivateKeyInfo()
 _JSON_FILE_PRIVATE_KEY = 'private_key'
 _JSON_FILE_PRIVATE_KEY_ID = 'private_key_id'


 def _bit_list_to_bytes(bit_list):
     """Converts an iterable of 1s and 0s to bytes.

     Combines the list 8 at a time, treating each group of 8 bits
     as a single byte.

     Args:
         bit_list (Sequence): Sequence of 1s and 0s.

     Returns:
         bytes: The decoded bytes.
     """
     num_bits = len(bit_list)
     byte_vals = bytearray()
     for start in six.moves.xrange(0, num_bits, 8):
         curr_bits = bit_list[start:start + 8]
         char_val = sum(val * digit
                        for val, digit in six.moves.zip(_POW2, curr_bits))
         byte_vals.append(char_val)
     return bytes(byte_vals)


 class Verifier(object):
     """This object is used to verify cryptographic signatures.

     Args:
         public_key (rsa.key.PublicKey): The public key used to verify
             signatures.
     """

     def __init__(self, public_key):
         self._pubkey = public_key

     def verify(self, message, signature):
         """Verifies a message against a cryptographic signature.

         Args:
             message (Union[str, bytes]): The message to verify.
             signature (Union[str, bytes]): The cryptography signature to check.

         Returns:
             bool: True if message was signed by the private key associated
             with the public key that this object was constructed with.
         """
         message = _helpers.to_bytes(message)
         try:
             return rsa.pkcs1.verify(message, signature, self._pubkey)
         except (ValueError, rsa.pkcs1.VerificationError):
             return False

     @classmethod
     def from_string(cls, public_key):
         """Construct an Verifier instance from a public key or public
         certificate string.

         Args:
             public_key (Union[str, bytes]): The public key in PEM format or the
                 x509 public key certificate.

         Returns:
             Verifier: The constructed verifier.

         Raises:
             ValueError: If the public_key can't be parsed.
         """
         public_key = _helpers.to_bytes(public_key)
         is_x509_cert = _CERTIFICATE_MARKER in public_key

         # If this is a certificate, extract the public key info.
         if is_x509_cert:
             der = rsa.pem.load_pem(public_key, 'CERTIFICATE')
             asn1_cert, remaining = decoder.decode(der, asn1Spec=Certificate())
             if remaining != b'':
                 raise ValueError('Unused bytes', remaining)

             cert_info = asn1_cert['tbsCertificate']['subjectPublicKeyInfo']
             key_bytes = _bit_list_to_bytes(cert_info['subjectPublicKey'])
             pubkey = rsa.PublicKey.load_pkcs1(key_bytes, 'DER')
         else:
             pubkey = rsa.PublicKey.load_pkcs1(public_key, 'PEM')
         return cls(pubkey)


 def verify_signature(message, signature, certs):
     """Verify a cryptographic signature.

     Checks that the provided ``signature`` was generated from ``bytes`` using
     the private key associated with the ``cert``.

     Args:
         message (Union[str, bytes]): The plaintext message.
         signature (Union[str, bytes]): The cryptographic signature to check.
         certs (Union[Sequence, str, bytes]): The certificate or certificates
             to use to check the signature.

     Returns:
         bool: True if the signature is valid, otherwise False.
     """
     if isinstance(certs, (six.text_type, six.binary_type)):
         certs = [certs]

     for cert in certs:
         verifier = Verifier.from_string(cert)
         if verifier.verify(message, signature):
             return True
     return False


 class Signer(object):
     """Signs messages with a private key.

     Args:
         private_key (rsa.key.PrivateKey): The private key to sign with.
         key_id (str): Optional key ID used to identify this private key. This
             can be useful to associate the private key with its associated
             public key or certificate.
     """

     def __init__(self, private_key, key_id=None):
         self._key = private_key
         self.key_id = key_id
         """Optional[str]: The key ID used to identify this private key."""

     def sign(self, message):
         """Signs a message.

         Args:
             message (Union[str, bytes]): The message to be signed.

         Returns:
             bytes: The signature of the message.
         """
         message = _helpers.to_bytes(message)
         return rsa.pkcs1.sign(message, self._key, 'SHA-256')

     @classmethod
     def from_string(cls, key, key_id=None):
         """Construct an Signer instance from a private key in PEM format.

         Args:
             key (str): Private key in PEM format.
             key_id (str): An optional key id used to identify the private key.

         Returns:
             google.auth.crypt.Signer: The constructed signer.

         Raises:
             ValueError: If the key cannot be parsed as PKCS#1 or PKCS#8 in
                 PEM format.
         """
         key = _helpers.from_bytes(key)  # PEM expects str in Python 3
         marker_id, key_bytes = pem.readPemBlocksFromFile(
             six.StringIO(key), _PKCS1_MARKER, _PKCS8_MARKER)

         # Key is in pkcs1 format.
         if marker_id == 0:
             private_key = rsa.key.PrivateKey.load_pkcs1(
                 key_bytes, format='DER')
         # Key is in pkcs8.
         elif marker_id == 1:
             key_info, remaining = decoder.decode(
                 key_bytes, asn1Spec=_PKCS8_SPEC)
             if remaining != b'':
                 raise ValueError('Unused bytes', remaining)
             private_key_info = key_info.getComponentByName('privateKey')
             private_key = rsa.key.PrivateKey.load_pkcs1(
                 private_key_info.asOctets(), format='DER')
         else:
             raise ValueError('No key could be detected.')

         return cls(private_key, key_id=key_id)

     @classmethod
     def from_service_account_info(cls, info):
         """Creates a Signer instance instance from a dictionary containing
         service account info in Google format.

         Args:
             info (Mapping[str, str]): The service account info in Google
                 format.

         Returns:
             google.auth.crypt.Signer: The constructed signer.

         Raises:
             ValueError: If the info is not in the expected format.
         """
         if _JSON_FILE_PRIVATE_KEY not in info:
             raise ValueError(
                 'The private_key field was not found in the service account '
                 'info.')

         return cls.from_string(
             info[_JSON_FILE_PRIVATE_KEY],
             info.get(_JSON_FILE_PRIVATE_KEY_ID))

     @classmethod
     def from_service_account_file(cls, filename):
         """Creates a Signer instance from a service account .json file
         in Google format.

         Args:
             filename (str): The path to the service account .json file.

         Returns:
             google.auth.crypt.Signer: The constructed signer.
         """
         with io.open(filename, 'r', encoding='utf-8') as json_file:
             data = json.load(json_file)

         return cls.from_service_account_info(data)
	# Copyright 2016 Google Inc.
	#
	# 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.

	"""Cryptography helpers for verifying and signing messages.

	Uses the ``rsa``, ``pyasn1`` and ``pyasn1_modules`` packages
	to parse PEM files storing PKCS#1 or PKCS#8 keys as well as
	certificates. There is no support for p12 files.

	The simplest way to verify signatures is using :func:`verify_signature`::

	cert = open('certs.pem').read()
	valid = crypt.verify_signature(message, signature, cert)

	If you're going to verify many messages with the same certificate, you can use
	:class:`Verifier`::

	cert = open('certs.pem').read()
	verifier = crypt.Verifier.from_string(cert)
	valid = verifier.verify(message, signature)


	To sign messages use :class:`Signer` with a private key::

	private_key = open('private_key.pem').read()
	signer = crypt.Signer(private_key)
	signature = signer.sign(message)

	"""
	import io
	import json

	from pyasn1.codec.der import decoder
	from pyasn1_modules import pem
	from pyasn1_modules.rfc2459 import Certificate
	from pyasn1_modules.rfc5208 import PrivateKeyInfo
	import rsa
	import six

	from google.auth import _helpers

	_POW2 = (128, 64, 32, 16, 8, 4, 2, 1)
	_CERTIFICATE_MARKER = b'-----BEGIN CERTIFICATE-----'
	_PKCS1_MARKER = ('-----BEGIN RSA PRIVATE KEY-----',
	'-----END RSA PRIVATE KEY-----')
	_PKCS8_MARKER = ('-----BEGIN PRIVATE KEY-----',
	'-----END PRIVATE KEY-----')
	_PKCS8_SPEC = PrivateKeyInfo()
	_JSON_FILE_PRIVATE_KEY = 'private_key'
	_JSON_FILE_PRIVATE_KEY_ID = 'private_key_id'


	def _bit_list_to_bytes(bit_list):
	"""Converts an iterable of 1s and 0s to bytes.

	Combines the list 8 at a time, treating each group of 8 bits
	as a single byte.

	Args:
	bit_list (Sequence): Sequence of 1s and 0s.

	Returns:
	bytes: The decoded bytes.
	"""
	num_bits = len(bit_list)
	byte_vals = bytearray()
	for start in six.moves.xrange(0, num_bits, 8):
	curr_bits = bit_list[start:start + 8]
	char_val = sum(val * digit
	for val, digit in six.moves.zip(_POW2, curr_bits))
	byte_vals.append(char_val)
	return bytes(byte_vals)


	class Verifier(object):
	"""This object is used to verify cryptographic signatures.

	Args:
	public_key (rsa.key.PublicKey): The public key used to verify
	signatures.
	"""

	def __init__(self, public_key):
	self._pubkey = public_key

	def verify(self, message, signature):
	"""Verifies a message against a cryptographic signature.

	Args:
	message (Union[str, bytes]): The message to verify.
	signature (Union[str, bytes]): The cryptography signature to check.

	Returns:
	bool: True if message was signed by the private key associated
	with the public key that this object was constructed with.
	"""
	message = _helpers.to_bytes(message)
	try:
	return rsa.pkcs1.verify(message, signature, self._pubkey)
	except (ValueError, rsa.pkcs1.VerificationError):
	return False

	@classmethod
	def from_string(cls, public_key):
	"""Construct an Verifier instance from a public key or public
	certificate string.

	Args:
	public_key (Union[str, bytes]): The public key in PEM format or the
	x509 public key certificate.

	Returns:
	Verifier: The constructed verifier.

	Raises:
	ValueError: If the public_key can't be parsed.
	"""
	public_key = _helpers.to_bytes(public_key)
	is_x509_cert = _CERTIFICATE_MARKER in public_key

	# If this is a certificate, extract the public key info.
	if is_x509_cert:
	der = rsa.pem.load_pem(public_key, 'CERTIFICATE')
	asn1_cert, remaining = decoder.decode(der, asn1Spec=Certificate())
	if remaining != b'':
	raise ValueError('Unused bytes', remaining)

	cert_info = asn1_cert['tbsCertificate']['subjectPublicKeyInfo']
	key_bytes = _bit_list_to_bytes(cert_info['subjectPublicKey'])
	pubkey = rsa.PublicKey.load_pkcs1(key_bytes, 'DER')
	else:
	pubkey = rsa.PublicKey.load_pkcs1(public_key, 'PEM')
	return cls(pubkey)


	def verify_signature(message, signature, certs):
	"""Verify a cryptographic signature.

	Checks that the provided ``signature`` was generated from ``bytes`` using
	the private key associated with the ``cert``.

	Args:
	message (Union[str, bytes]): The plaintext message.
	signature (Union[str, bytes]): The cryptographic signature to check.
	certs (Union[Sequence, str, bytes]): The certificate or certificates
	to use to check the signature.

	Returns:
	bool: True if the signature is valid, otherwise False.
	"""
	if isinstance(certs, (six.text_type, six.binary_type)):
	certs = [certs]

	for cert in certs:
	verifier = Verifier.from_string(cert)
	if verifier.verify(message, signature):
	return True
	return False


	class Signer(object):
	"""Signs messages with a private key.

	Args:
	private_key (rsa.key.PrivateKey): The private key to sign with.
	key_id (str): Optional key ID used to identify this private key. This
	can be useful to associate the private key with its associated
	public key or certificate.
	"""

	def __init__(self, private_key, key_id=None):
	self._key = private_key
	self.key_id = key_id
	"""Optional[str]: The key ID used to identify this private key."""

	def sign(self, message):
	"""Signs a message.

	Args:
	message (Union[str, bytes]): The message to be signed.

	Returns:
	bytes: The signature of the message.
	"""
	message = _helpers.to_bytes(message)
	return rsa.pkcs1.sign(message, self._key, 'SHA-256')

	@classmethod
	def from_string(cls, key, key_id=None):
	"""Construct an Signer instance from a private key in PEM format.

	Args:
	key (str): Private key in PEM format.
	key_id (str): An optional key id used to identify the private key.

	Returns:
	google.auth.crypt.Signer: The constructed signer.

	Raises:
	ValueError: If the key cannot be parsed as PKCS#1 or PKCS#8 in
	PEM format.
	"""
	key = _helpers.from_bytes(key) # PEM expects str in Python 3
	marker_id, key_bytes = pem.readPemBlocksFromFile(
	six.StringIO(key), _PKCS1_MARKER, _PKCS8_MARKER)

	# Key is in pkcs1 format.
	if marker_id == 0:
	private_key = rsa.key.PrivateKey.load_pkcs1(
	key_bytes, format='DER')
	# Key is in pkcs8.
	elif marker_id == 1:
	key_info, remaining = decoder.decode(
	key_bytes, asn1Spec=_PKCS8_SPEC)
	if remaining != b'':
	raise ValueError('Unused bytes', remaining)
	private_key_info = key_info.getComponentByName('privateKey')
	private_key = rsa.key.PrivateKey.load_pkcs1(
	private_key_info.asOctets(), format='DER')
	else:
	raise ValueError('No key could be detected.')

	return cls(private_key, key_id=key_id)

	@classmethod
	def from_service_account_info(cls, info):
	"""Creates a Signer instance instance from a dictionary containing
	service account info in Google format.

	Args:
	info (Mapping[str, str]): The service account info in Google
	format.

	Returns:
	google.auth.crypt.Signer: The constructed signer.

	Raises:
	ValueError: If the info is not in the expected format.
	"""
	if _JSON_FILE_PRIVATE_KEY not in info:
	raise ValueError(
	'The private_key field was not found in the service account '
	'info.')

	return cls.from_string(
	info[_JSON_FILE_PRIVATE_KEY],
	info.get(_JSON_FILE_PRIVATE_KEY_ID))

	@classmethod
	def from_service_account_file(cls, filename):
	"""Creates a Signer instance from a service account .json file
	in Google format.

	Args:
	filename (str): The path to the service account .json file.

	Returns:
	google.auth.crypt.Signer: The constructed signer.
	"""
	with io.open(filename, 'r', encoding='utf-8') as json_file:
	data = json.load(json_file)

	return cls.from_service_account_info(data)