Adding a pure Python crypt sub-module.

oauth2client/_pure_python_crypt.py

@@ -0,0 +1,185 @@
+# Copyright 2016 Google Inc. 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.
+
+"""Pure Python crypto-related routines for oauth2client.
+
+Uses the ``rsa``, ``pyasn1`` and ``pyasn1_modules`` packages
+to parse PEM files storing PKCS#1 or PKCS#8 keys as well as
+certificates.
+"""
+
+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 oauth2client._helpers import _from_bytes
+from oauth2client._helpers import _to_bytes
+
+
+_PKCS12_ERROR = r"""\
+PKCS12 format is not supported by the RSA library.
+Either install PyOpenSSL, or please convert .p12 format
+to .pem format:
+    $ cat key.p12 | \
+    >   openssl pkcs12 -nodes -nocerts -passin pass:notasecret | \
+    >   openssl rsa > key.pem
+"""
+
+_POW2 = (128, 64, 32, 16, 8, 4, 2, 1)
+_PKCS1_MARKER = ('-----BEGIN RSA PRIVATE KEY-----',
+                 '-----END RSA PRIVATE KEY-----')
+_PKCS8_MARKER = ('-----BEGIN PRIVATE KEY-----',
+                 '-----END PRIVATE KEY-----')
+_PKCS8_SPEC = PrivateKeyInfo()
+
+
+def _bit_list_to_bytes(bit_list):
+    """Converts an iterable of 1's and 0's to bytes.
+
+    Combines the list 8 at a time, treating each group of 8 bits
+    as a single byte.
+    """
+    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 zip(_POW2, curr_bits))
+        byte_vals.append(char_val)
+    return bytes(byte_vals)
+
+
+class RsaVerifier(object):
+    """Verifies the signature on a message.
+
+    Args:
+        pubkey: rsa.key.PublicKey (or equiv), The public key to verify with.
+    """
+
+    def __init__(self, pubkey):
+        self._pubkey = pubkey
+
+    def verify(self, message, signature):
+        """Verifies a message against a signature.
+
+        Args:
+            message: string or bytes, The message to verify. If string, will be
+                     encoded to bytes as utf-8.
+            signature: string or bytes, The signature on the message. If
+                       string, will be encoded to bytes as utf-8.
+
+        Returns:
+            True if message was signed by the private key associated with the
+            public key that this object was constructed with.
+        """
+        message = _to_bytes(message, encoding='utf-8')
+        try:
+            return rsa.pkcs1.verify(message, signature, self._pubkey)
+        except (ValueError, rsa.pkcs1.VerificationError):
+            return False
+
+    @classmethod
+    def from_string(cls, key_pem, is_x509_cert):
+        """Construct an RsaVerifier instance from a string.
+
+        Args:
+            key_pem: string, public key in PEM format.
+            is_x509_cert: bool, True if key_pem is an X509 cert, otherwise it
+                          is expected to be an RSA key in PEM format.
+
+        Returns:
+            RsaVerifier instance.
+
+        Raises:
+            ValueError: if the key_pem can't be parsed. In either case, error
+                        will begin with 'No PEM start marker'. If
+                        ``is_x509_cert`` is True, will fail to find the
+                        "-----BEGIN CERTIFICATE-----" error, otherwise fails
+                        to find "-----BEGIN RSA PUBLIC KEY-----".
+        """
+        key_pem = _to_bytes(key_pem)
+        if is_x509_cert:
+            der = rsa.pem.load_pem(key_pem, '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(key_pem, 'PEM')
+        return cls(pubkey)
+
+
+class RsaSigner(object):
+    """Signs messages with a private key.
+
+    Args:
+        pkey: rsa.key.PrivateKey (or equiv), The private key to sign with.
+    """
+
+    def __init__(self, pkey):
+        self._key = pkey
+
+    def sign(self, message):
+        """Signs a message.
+
+        Args:
+            message: bytes, Message to be signed.
+
+        Returns:
+            string, The signature of the message for the given key.
+        """
+        message = _to_bytes(message, encoding='utf-8')
+        return rsa.pkcs1.sign(message, self._key, 'SHA-256')
+
+    @classmethod
+    def from_string(cls, key, password='notasecret'):
+        """Construct an RsaSigner instance from a string.
+
+        Args:
+            key: string, private key in PEM format.
+            password: string, password for private key file. Unused for PEM
+                      files.
+
+        Returns:
+            RsaSigner instance.
+
+        Raises:
+            ValueError if the key cannot be parsed as PKCS#1 or PKCS#8 in
+            PEM format.
+        """
+        key = _from_bytes(key)  # pem expects str in Py3
+        marker_id, key_bytes = pem.readPemBlocksFromFile(
+            six.StringIO(key), _PKCS1_MARKER, _PKCS8_MARKER)
+
+        if marker_id == 0:
+            pkey = rsa.key.PrivateKey.load_pkcs1(key_bytes,
+                                                 format='DER')
+        elif marker_id == 1:
+            key_info, remaining = decoder.decode(
+                key_bytes, asn1Spec=_PKCS8_SPEC)
+            if remaining != b'':
+                raise ValueError('Unused bytes', remaining)
+            pkey_info = key_info.getComponentByName('privateKey')
+            pkey = rsa.key.PrivateKey.load_pkcs1(pkey_info.asOctets(),
+                                                 format='DER')
+        else:
+            raise ValueError('No key could be detected.')
+
+        return cls(pkey)

oauth2client/crypt.py

@@ -24,6 +24,8 @@
 from oauth2client._helpers import _to_bytes
 from oauth2client._helpers import _urlsafe_b64decode
 from oauth2client._helpers import _urlsafe_b64encode
+from oauth2client._pure_python_crypt import RsaSigner
+from oauth2client._pure_python_crypt import RsaVerifier
 
 
 CLOCK_SKEW_SECS = 300  # 5 minutes in seconds
@@ -65,8 +67,8 @@ def _bad_pkcs12_key_as_pem(*args, **kwargs):
     Signer = PyCryptoSigner
     Verifier = PyCryptoVerifier
 else:  # pragma: NO COVER
-    raise ImportError('No encryption library found. Please install either '
-                      'PyOpenSSL, or PyCrypto 2.6 or later')
+    Signer = RsaSigner
+    Verifier = RsaVerifier
 
 
 def make_signed_jwt(signer, payload):

tests/data/privatekey.pub

@@ -0,0 +1,8 @@
+-----BEGIN RSA PUBLIC KEY-----
+MIIBCgKCAQEA4ej0p7bQ7L/r4rVGUz9RN4VQWoej1Bg1mYWIDYslvKrk1gpj7wZg
+kdmM7oVK2OfgrSj/FCTkInKPqaCR0gD7K80q+mLBrN3PUkDrJQZpvRZIff3/xmVU
+1WeruQLFJjnFb2dqu0s/FY/2kWiJtBCakXvXEOb7zfbINuayL+MSsCGSdVYsSliS
+5qQpgyDap+8b5fpXZVJkq92hrcNtbkg7hCYUJczt8n9hcCTJCfUpApvaFQ18pe+z
+pyl4+WzkP66I28hniMQyUlA1hBiskT7qiouq0m8IOodhv2fagSZKjOTTU2xkSBc/
+/fy3ZpsL7WqgsZS7Q+0VRK8gKfqkxg5OYQIDAQAB
+-----END RSA PUBLIC KEY-----

tests/test__pure_python_crypt.py

@@ -0,0 +1,179 @@
+# Copyright 2016 Google Inc. 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.
+
+"""Unit tests for oauth2client._pure_python_crypt."""
+
+import os
+
+import mock
+from pyasn1_modules import pem
+import rsa
+import six
+import unittest2
+
+from oauth2client._helpers import _from_bytes
+from oauth2client import _pure_python_crypt
+from oauth2client.crypt import RsaSigner
+from oauth2client.crypt import RsaVerifier
+
+
+class TestRsaVerifier(unittest2.TestCase):
+
+    PUBLIC_KEY_FILENAME = os.path.join(os.path.dirname(__file__),
+                                       'data', 'privatekey.pub')
+    PUBLIC_CERT_FILENAME = os.path.join(os.path.dirname(__file__),
+                                       'data', 'public_cert.pem')
+    PRIVATE_KEY_FILENAME = os.path.join(os.path.dirname(__file__),
+                                        'data', 'privatekey.pem')
+
+    def _load_public_key_bytes(self):
+        with open(self.PUBLIC_KEY_FILENAME, 'rb') as fh:
+            return fh.read()
+
+    def _load_public_cert_bytes(self):
+        with open(self.PUBLIC_CERT_FILENAME, 'rb') as fh:
+            return fh.read()
+
+    def _load_private_key_bytes(self):
+        with open(self.PRIVATE_KEY_FILENAME, 'rb') as fh:
+            return fh.read()
+
+    def test_verify_success(self):
+        to_sign = b'foo'
+        signer = RsaSigner.from_string(self._load_private_key_bytes())
+        actual_signature = signer.sign(to_sign)
+
+        verifier = RsaVerifier.from_string(self._load_public_key_bytes(),
+                                           is_x509_cert=False)
+        self.assertTrue(verifier.verify(to_sign, actual_signature))
+
+    def test_verify_unicode_success(self):
+        to_sign = u'foo'
+        signer = RsaSigner.from_string(self._load_private_key_bytes())
+        actual_signature = signer.sign(to_sign)
+
+        verifier = RsaVerifier.from_string(self._load_public_key_bytes(),
+                                           is_x509_cert=False)
+        self.assertTrue(verifier.verify(to_sign, actual_signature))
+
+    def test_verify_failure(self):
+        verifier = RsaVerifier.from_string(self._load_public_key_bytes(),
+                                           is_x509_cert=False)
+        bad_signature1 = b''
+        self.assertFalse(verifier.verify(b'foo', bad_signature1))
+        bad_signature2 = b'a'
+        self.assertFalse(verifier.verify(b'foo', bad_signature2))
+
+    def test_from_string_pub_key(self):
+        public_key = self._load_public_key_bytes()
+        verifier = RsaVerifier.from_string(public_key, is_x509_cert=False)
+        self.assertIsInstance(verifier, RsaVerifier)
+        self.assertIsInstance(verifier._pubkey, rsa.key.PublicKey)
+
+    def test_from_string_pub_key_unicode(self):
+        public_key = _from_bytes(self._load_public_key_bytes())
+        verifier = RsaVerifier.from_string(public_key, is_x509_cert=False)
+        self.assertIsInstance(verifier, RsaVerifier)
+        self.assertIsInstance(verifier._pubkey, rsa.key.PublicKey)
+
+    def test_from_string_pub_cert(self):
+        public_cert = self._load_public_cert_bytes()
+        verifier = RsaVerifier.from_string(public_cert, is_x509_cert=True)
+        self.assertIsInstance(verifier, RsaVerifier)
+        self.assertIsInstance(verifier._pubkey, rsa.key.PublicKey)
+
+    def test_from_string_pub_cert_unicode(self):
+        public_cert = _from_bytes(self._load_public_cert_bytes())
+        verifier = RsaVerifier.from_string(public_cert, is_x509_cert=True)
+        self.assertIsInstance(verifier, RsaVerifier)
+        self.assertIsInstance(verifier._pubkey, rsa.key.PublicKey)
+
+    def test_from_string_pub_cert_failure(self):
+        cert_bytes = self._load_public_cert_bytes()
+        true_der = rsa.pem.load_pem(cert_bytes, 'CERTIFICATE')
+        with mock.patch('rsa.pem.load_pem',
+                        return_value=true_der + b'extra') as load_pem:
+            with self.assertRaises(ValueError):
+                RsaVerifier.from_string(cert_bytes, is_x509_cert=True)
+            load_pem.assert_called_once_with(cert_bytes, 'CERTIFICATE')
+
+
+class TestRsaSigner(unittest2.TestCase):
+
+    PKCS1_KEY_FILENAME = os.path.join(os.path.dirname(__file__),
+                                      'data', 'privatekey.pem')
+    PKCS8_KEY_FILENAME = os.path.join(os.path.dirname(__file__),
+                                      'data', 'pem_from_pkcs12.pem')
+    PKCS12_KEY_FILENAME = os.path.join(os.path.dirname(__file__),
+                                       'data', 'privatekey.p12')
+
+    def _load_pkcs1_key_bytes(self):
+        with open(self.PKCS1_KEY_FILENAME, 'rb') as fh:
+            return fh.read()
+
+    def _load_pkcs8_key_bytes(self):
+        with open(self.PKCS8_KEY_FILENAME, 'rb') as fh:
+            return fh.read()
+
+    def _load_pkcs12_key_bytes(self):
+        with open(self.PKCS12_KEY_FILENAME, 'rb') as fh:
+            return fh.read()
+
+    def test_from_string_pkcs1(self):
+        key_bytes = self._load_pkcs1_key_bytes()
+        signer = RsaSigner.from_string(key_bytes)
+        self.assertIsInstance(signer, RsaSigner)
+        self.assertIsInstance(signer._key, rsa.key.PrivateKey)
+
+    def test_from_string_pkcs1_unicode(self):
+        key_bytes = _from_bytes(self._load_pkcs1_key_bytes())
+        signer = RsaSigner.from_string(key_bytes)
+        self.assertIsInstance(signer, RsaSigner)
+        self.assertIsInstance(signer._key, rsa.key.PrivateKey)
+
+    def test_from_string_pkcs8(self):
+        key_bytes = self._load_pkcs8_key_bytes()
+        signer = RsaSigner.from_string(key_bytes)
+        self.assertIsInstance(signer, RsaSigner)
+        self.assertIsInstance(signer._key, rsa.key.PrivateKey)
+
+    def test_from_string_pkcs8_extra_bytes(self):
+        key_bytes = self._load_pkcs8_key_bytes()
+        _, pem_bytes = pem.readPemBlocksFromFile(
+            six.StringIO(_from_bytes(key_bytes)),
+            _pure_python_crypt._PKCS8_MARKER)
+
+        with mock.patch('pyasn1.codec.der.decoder.decode') as mock_decode:
+            key_info, remaining = None, 'extra'
+            mock_decode.return_value = (key_info, remaining)
+            with self.assertRaises(ValueError):
+                RsaSigner.from_string(key_bytes)
+            # Verify mock was called.
+            mock_decode.assert_called_once_with(
+                pem_bytes, asn1Spec=_pure_python_crypt._PKCS8_SPEC)
+
+    def test_from_string_pkcs8_unicode(self):
+        key_bytes = _from_bytes(self._load_pkcs8_key_bytes())
+        signer = RsaSigner.from_string(key_bytes)
+        self.assertIsInstance(signer, RsaSigner)
+        self.assertIsInstance(signer._key, rsa.key.PrivateKey)
+
+    def test_from_string_pkcs12(self):
+        key_bytes = self._load_pkcs12_key_bytes()
+        with self.assertRaises(ValueError):
+            RsaSigner.from_string(key_bytes)
+
+
+if __name__ == '__main__':  # pragma: NO COVER
+    unittest2.main()