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author | drebs <drebs@leap.se> | 2013-05-29 10:18:44 -0300 |
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committer | drebs <drebs@leap.se> | 2013-05-29 10:20:16 -0300 |
commit | de1677894afd4dd85e9616d5cf58bfe86bd866e2 (patch) | |
tree | c07309c34ff3d20d36dc14c761d315a627135675 /src/leap/common/keymanager/openpgp.py | |
parent | cec2baa24f454c9f9168b5faed1a465e9943f591 (diff) |
Remove keymanager from this repository.
Diffstat (limited to 'src/leap/common/keymanager/openpgp.py')
-rw-r--r-- | src/leap/common/keymanager/openpgp.py | 636 |
1 files changed, 0 insertions, 636 deletions
diff --git a/src/leap/common/keymanager/openpgp.py b/src/leap/common/keymanager/openpgp.py deleted file mode 100644 index dd11157..0000000 --- a/src/leap/common/keymanager/openpgp.py +++ /dev/null @@ -1,636 +0,0 @@ -# -*- coding: utf-8 -*- -# openpgp.py -# Copyright (C) 2013 LEAP -# -# This program is free software: you can redistribute it and/or modify -# it under the terms of the GNU General Public License as published by -# the Free Software Foundation, either version 3 of the License, or -# (at your option) any later version. -# -# This program is distributed in the hope that it will be useful, -# but WITHOUT ANY WARRANTY; without even the implied warranty of -# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -# GNU General Public License for more details. -# -# You should have received a copy of the GNU General Public License -# along with this program. If not, see <http://www.gnu.org/licenses/>. - -""" -Infrastructure for using OpenPGP keys in Key Manager. -""" -import logging -import os -import re -import shutil -import tempfile - -from leap.common.check import leap_assert, leap_assert_type -from leap.common.keymanager import errors -from leap.common.keymanager.keys import ( - EncryptionKey, - EncryptionScheme, - is_address, - build_key_from_dict, - KEYMANAGER_KEY_TAG, - TAGS_ADDRESS_PRIVATE_INDEX, -) -from leap.common.keymanager.gpg import GPGWrapper - -logger = logging.getLogger(__name__) - - -# -# gpg wrapper and decorator -# - -def temporary_gpgwrapper(keys=None): - """ - Returns a unitary gpg wrapper that implements context manager - protocol. - - :param key_data: ASCII armored key data. - :type key_data: str - - :return: a GPGWrapper instance - :rtype: GPGWrapper - """ - # TODO do here checks on key_data - return TempGPGWrapper(keys=keys) - - -def with_temporary_gpg(fun): - """ - Decorator to add a temporary gpg wrapper as context - to gpg related functions. - - Decorated functions are expected to return a function whose only - argument is a gpgwrapper instance. - """ - def wrapped(*args, **kwargs): - """ - We extract the arguments passed to the wrapped function, - run the function and do validations. - We expect that the positional arguments are `data`, - and an optional `key`. - All the rest of arguments should be passed as named arguments - to allow for a correct unpacking. - """ - if len(args) == 2: - keys = args[1] if isinstance(args[1], OpenPGPKey) else None - else: - keys = None - - # sign/verify keys passed as arguments - sign = kwargs.get('sign', None) - if sign: - keys = [keys, sign] - - verify = kwargs.get('verify', None) - if verify: - keys = [keys, verify] - - # is the wrapped function sign or verify? - fun_name = fun.__name__ - is_sign_function = True if fun_name == "sign" else False - is_verify_function = True if fun_name == "verify" else False - - result = None - - with temporary_gpgwrapper(keys) as gpg: - result = fun(*args, **kwargs)(gpg) - - # TODO: cleanup a little bit the - # validation. maybe delegate to other - # auxiliary functions for clarity. - - ok = getattr(result, 'ok', None) - - stderr = getattr(result, 'stderr', None) - if stderr: - logger.debug("%s" % (stderr,)) - - if ok is False: - raise errors.EncryptionDecryptionFailed( - 'Failed to encrypt/decrypt in %s: %s' % ( - fun.__name__, - stderr)) - - if verify is not None: - # A verify key has been passed - if result.valid is False or \ - verify.fingerprint != result.pubkey_fingerprint: - raise errors.InvalidSignature( - 'Failed to verify signature with key %s: %s' % - (verify.key_id, stderr)) - - if is_sign_function: - # Specific validation for sign function - privkey = gpg.list_keys(secret=True).pop() - rfprint = result.fingerprint - kfprint = privkey['fingerprint'] - if result.fingerprint is None: - raise errors.SignFailed( - 'Failed to sign with key %s: %s' % - (privkey['keyid'], stderr)) - leap_assert( - result.fingerprint == kfprint, - 'Signature and private key fingerprints mismatch: ' - '%s != %s' % - (rfprint, kfprint)) - - if is_verify_function: - # Specific validation for verify function - pubkey = gpg.list_keys().pop() - valid = result.valid - rfprint = result.fingerprint - kfprint = pubkey['fingerprint'] - if valid is False or rfprint != kfprint: - raise errors.InvalidSignature( - 'Failed to verify signature ' - 'with key %s.' % pubkey['keyid']) - result = result.valid - - # ok, enough checks. let's return data if available - if hasattr(result, 'data'): - result = result.data - return result - return wrapped - - -class TempGPGWrapper(object): - """ - A context manager returning a temporary GPG wrapper keyring, which - contains exactly zero or one pubkeys, and zero or one privkeys. - - Temporary unitary keyrings allow the to use GPG's facilities for exactly - one key. This function creates an empty temporary keyring and imports - C{keys} if it is not None. - """ - def __init__(self, keys=None): - """ - :param keys: OpenPGP key, or list of. - :type keys: OpenPGPKey or list of OpenPGPKeys - """ - self._gpg = None - if not keys: - keys = list() - if not isinstance(keys, list): - keys = [keys] - self._keys = keys - for key in filter(None, keys): - leap_assert_type(key, OpenPGPKey) - - def __enter__(self): - """ - Calls the unitary gpgwrapper initializer - - :return: A GPG wrapper with a unitary keyring. - :rtype: gnupg.GPG - """ - self._build_keyring() - return self._gpg - - def __exit__(self, exc_type, exc_value, traceback): - """ - Ensures the gpgwrapper is properly destroyed. - """ - # TODO handle exceptions and log here - self._destroy_keyring() - - def _build_keyring(self): - """ - Create an empty GPG keyring and import C{keys} into it. - - :param keys: List of keys to add to the keyring. - :type keys: list of OpenPGPKey - - :return: A GPG wrapper with a unitary keyring. - :rtype: gnupg.GPG - """ - privkeys = [key for key in self._keys if key and key.private is True] - publkeys = [key for key in self._keys if key and key.private is False] - # here we filter out public keys that have a correspondent - # private key in the list because the private key_data by - # itself is enough to also have the public key in the keyring, - # and we want to count the keys afterwards. - - privaddrs = map(lambda privkey: privkey.address, privkeys) - publkeys = filter( - lambda pubkey: pubkey.address not in privaddrs, publkeys) - - listkeys = lambda: self._gpg.list_keys() - listsecretkeys = lambda: self._gpg.list_keys(secret=True) - - self._gpg = GPGWrapper(gnupghome=tempfile.mkdtemp()) - leap_assert(len(listkeys()) is 0, 'Keyring not empty.') - - # import keys into the keyring: - # concatenating ascii-armored keys, which is correctly - # understood by the GPGWrapper. - - self._gpg.import_keys("".join( - [x.key_data for x in publkeys + privkeys])) - - # assert the number of keys in the keyring - leap_assert( - len(listkeys()) == len(publkeys) + len(privkeys), - 'Wrong number of public keys in keyring: %d, should be %d)' % - (len(listkeys()), len(publkeys) + len(privkeys))) - leap_assert( - len(listsecretkeys()) == len(privkeys), - 'Wrong number of private keys in keyring: %d, should be %d)' % - (len(listsecretkeys()), len(privkeys))) - - def _destroy_keyring(self): - """ - Securely erase a unitary keyring. - """ - # TODO: implement some kind of wiping of data or a more - # secure way that - # does not write to disk. - - try: - for secret in [True, False]: - for key in self._gpg.list_keys(secret=secret): - self._gpg.delete_keys( - key['fingerprint'], - secret=secret) - leap_assert(len(self._gpg.list_keys()) is 0, 'Keyring not empty!') - - except: - raise - - finally: - leap_assert(self._gpg.gnupghome != os.path.expanduser('~/.gnupg'), - "watch out! Tried to remove default gnupg home!") - shutil.rmtree(self._gpg.gnupghome) - - -# -# API functions -# - -@with_temporary_gpg -def encrypt_asym(data, key, passphrase=None, sign=None): - """ - Encrypt C{data} using public @{key} and sign with C{sign} key. - - :param data: The data to be encrypted. - :type data: str - :param pubkey: The key used to encrypt. - :type pubkey: OpenPGPKey - :param sign: The key used for signing. - :type sign: OpenPGPKey - - :return: The encrypted data. - :rtype: str - """ - leap_assert_type(key, OpenPGPKey) - leap_assert(key.private is False, 'Key is not public.') - if sign is not None: - leap_assert_type(sign, OpenPGPKey) - leap_assert(sign.private is True) - - # Here we cannot assert for correctness of sig because the sig is in - # the ciphertext. - # result.ok - (bool) indicates if the operation succeeded - # result.data - (bool) contains the result of the operation - - return lambda gpg: gpg.encrypt( - data, key.fingerprint, - sign=sign.key_id if sign else None, - passphrase=passphrase, symmetric=False) - - -@with_temporary_gpg -def decrypt_asym(data, key, passphrase=None, verify=None): - """ - Decrypt C{data} using private @{key} and verify with C{verify} key. - - :param data: The data to be decrypted. - :type data: str - :param privkey: The key used to decrypt. - :type privkey: OpenPGPKey - :param verify: The key used to verify a signature. - :type verify: OpenPGPKey - - :return: The decrypted data. - :rtype: str - - @raise InvalidSignature: Raised if unable to verify the signature with - C{verify} key. - """ - leap_assert(key.private is True, 'Key is not private.') - if verify is not None: - leap_assert_type(verify, OpenPGPKey) - leap_assert(verify.private is False) - - return lambda gpg: gpg.decrypt( - data, passphrase=passphrase) - - -@with_temporary_gpg -def is_encrypted(data): - """ - Return whether C{data} was encrypted using OpenPGP. - - :param data: The data we want to know about. - :type data: str - - :return: Whether C{data} was encrypted using this wrapper. - :rtype: bool - """ - return lambda gpg: gpg.is_encrypted(data) - - -@with_temporary_gpg -def is_encrypted_asym(data): - """ - Return whether C{data} was asymmetrically encrypted using OpenPGP. - - :param data: The data we want to know about. - :type data: str - - :return: Whether C{data} was encrypted using this wrapper. - :rtype: bool - """ - return lambda gpg: gpg.is_encrypted_asym(data) - - -@with_temporary_gpg -def sign(data, privkey): - """ - Sign C{data} with C{privkey}. - - :param data: The data to be signed. - :type data: str - - :param privkey: The private key to be used to sign. - :type privkey: OpenPGPKey - - :return: The ascii-armored signed data. - :rtype: str - """ - leap_assert_type(privkey, OpenPGPKey) - leap_assert(privkey.private is True) - - # result.fingerprint - contains the fingerprint of the key used to - # sign. - return lambda gpg: gpg.sign(data, keyid=privkey.key_id) - - -@with_temporary_gpg -def verify(data, key): - """ - Verify signed C{data} with C{pubkey}. - - :param data: The data to be verified. - :type data: str - - :param pubkey: The public key to be used on verification. - :type pubkey: OpenPGPKey - - :return: The ascii-armored signed data. - :rtype: str - """ - leap_assert_type(key, OpenPGPKey) - leap_assert(key.private is False) - - return lambda gpg: gpg.verify(data) - - -# -# Helper functions -# - - -def _build_key_from_gpg(address, key, key_data): - """ - Build an OpenPGPKey for C{address} based on C{key} from - local gpg storage. - - ASCII armored GPG key data has to be queried independently in this - wrapper, so we receive it in C{key_data}. - - :param address: The address bound to the key. - :type address: str - :param key: Key obtained from GPG storage. - :type key: dict - :param key_data: Key data obtained from GPG storage. - :type key_data: str - :return: An instance of the key. - :rtype: OpenPGPKey - """ - return OpenPGPKey( - address, - key_id=key['keyid'], - fingerprint=key['fingerprint'], - key_data=key_data, - private=True if key['type'] == 'sec' else False, - length=key['length'], - expiry_date=key['expires'], - validation=None, # TODO: verify for validation. - ) - - -# -# The OpenPGP wrapper -# - -class OpenPGPKey(EncryptionKey): - """ - Base class for OpenPGP keys. - """ - - -class OpenPGPScheme(EncryptionScheme): - """ - A wrapper for OpenPGP keys. - """ - - def __init__(self, soledad): - """ - Initialize the OpenPGP wrapper. - - :param soledad: A Soledad instance for key storage. - :type soledad: leap.soledad.Soledad - """ - EncryptionScheme.__init__(self, soledad) - - def gen_key(self, address): - """ - Generate an OpenPGP keypair bound to C{address}. - - :param address: The address bound to the key. - :type address: str - :return: The key bound to C{address}. - :rtype: OpenPGPKey - @raise KeyAlreadyExists: If key already exists in local database. - """ - # make sure the key does not already exist - leap_assert(is_address(address), 'Not an user address: %s' % address) - try: - self.get_key(address) - raise errors.KeyAlreadyExists(address) - except errors.KeyNotFound: - pass - - def _gen_key(gpg): - params = gpg.gen_key_input( - key_type='RSA', - key_length=4096, - name_real=address, - name_email=address, - name_comment='Generated by LEAP Key Manager.') - gpg.gen_key(params) - pubkeys = gpg.list_keys() - # assert for new key characteristics - leap_assert( - len(pubkeys) is 1, # a unitary keyring! - 'Keyring has wrong number of keys: %d.' % len(pubkeys)) - key = gpg.list_keys(secret=True).pop() - leap_assert( - len(key['uids']) is 1, # with just one uid! - 'Wrong number of uids for key: %d.' % len(key['uids'])) - leap_assert( - re.match('.*<%s>$' % address, key['uids'][0]) is not None, - 'Key not correctly bound to address.') - # insert both public and private keys in storage - for secret in [True, False]: - key = gpg.list_keys(secret=secret).pop() - openpgp_key = _build_key_from_gpg( - address, key, - gpg.export_keys(key['fingerprint'], secret=secret)) - self.put_key(openpgp_key) - - with temporary_gpgwrapper() as gpg: - # TODO: inspect result, or use decorator - _gen_key(gpg) - - return self.get_key(address, private=True) - - def get_key(self, address, private=False): - """ - Get key bound to C{address} from local storage. - - :param address: The address bound to the key. - :type address: str - :param private: Look for a private key instead of a public one? - :type private: bool - - :return: The key bound to C{address}. - :rtype: OpenPGPKey - @raise KeyNotFound: If the key was not found on local storage. - """ - leap_assert(is_address(address), 'Not an user address: %s' % address) - doc = self._get_key_doc(address, private) - if doc is None: - raise errors.KeyNotFound(address) - return build_key_from_dict(OpenPGPKey, address, doc.content) - - def put_ascii_key(self, key_data): - """ - Put key contained in ascii-armored C{key_data} in local storage. - - :param key_data: The key data to be stored. - :type key_data: str - """ - leap_assert_type(key_data, str) - # TODO: add more checks for correct key data. - leap_assert(key_data is not None, 'Data does not represent a key.') - - def _put_ascii_key(gpg): - gpg.import_keys(key_data) - privkey = None - pubkey = None - - try: - privkey = gpg.list_keys(secret=True).pop() - except IndexError: - pass - pubkey = gpg.list_keys(secret=False).pop() # unitary keyring - # extract adress from first uid on key - match = re.match('.*<([\w.-]+@[\w.-]+)>.*', pubkey['uids'].pop()) - leap_assert(match is not None, 'No user address in key data.') - address = match.group(1) - if privkey is not None: - match = re.match( - '.*<([\w.-]+@[\w.-]+)>.*', privkey['uids'].pop()) - leap_assert(match is not None, 'No user address in key data.') - privaddress = match.group(1) - leap_assert( - address == privaddress, - 'Addresses in pub and priv key differ.') - leap_assert( - pubkey['fingerprint'] == privkey['fingerprint'], - 'Fingerprints for pub and priv key differ.') - # insert private key in storage - openpgp_privkey = _build_key_from_gpg( - address, privkey, - gpg.export_keys(privkey['fingerprint'], secret=True)) - self.put_key(openpgp_privkey) - # insert public key in storage - openpgp_pubkey = _build_key_from_gpg( - address, pubkey, - gpg.export_keys(pubkey['fingerprint'], secret=False)) - self.put_key(openpgp_pubkey) - - with temporary_gpgwrapper() as gpg: - # TODO: inspect result, or use decorator - _put_ascii_key(gpg) - - def put_key(self, key): - """ - Put C{key} in local storage. - - :param key: The key to be stored. - :type key: OpenPGPKey - """ - doc = self._get_key_doc(key.address, private=key.private) - if doc is None: - self._soledad.create_doc_from_json(key.get_json()) - else: - doc.set_json(key.get_json()) - self._soledad.put_doc(doc) - - def _get_key_doc(self, address, private=False): - """ - Get the document with a key (public, by default) bound to C{address}. - - If C{private} is True, looks for a private key instead of a public. - - :param address: The address bound to the key. - :type address: str - :param private: Whether to look for a private key. - :type private: bool - :return: The document with the key or None if it does not exist. - :rtype: leap.soledad.backends.leap_backend.LeapDocument - """ - doclist = self._soledad.get_from_index( - TAGS_ADDRESS_PRIVATE_INDEX, - KEYMANAGER_KEY_TAG, - address, - '1' if private else '0') - if len(doclist) is 0: - return None - leap_assert( - len(doclist) is 1, - 'Found more than one %s key for address!' % - 'private' if private else 'public') - return doclist.pop() - - def delete_key(self, key): - """ - Remove C{key} from storage. - - :param key: The key to be removed. - :type key: EncryptionKey - """ - leap_assert(key.__class__ is OpenPGPKey, 'Wrong key type.') - stored_key = self.get_key(key.address, private=key.private) - if stored_key is None: - raise errors.KeyNotFound(key) - if stored_key.__dict__ != key.__dict__: - raise errors.KeyAttributesDiffer(key) - doc = self._get_key_doc(key.address, key.private) - self._soledad.delete_doc(doc) |