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+# -*- coding: utf-8 -*-
+# openpgp.py
+# Copyright (C) 2013-2016 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 tempfile
+import traceback
+import io
+
+
+from datetime import datetime
+from multiprocessing import cpu_count
+from gnupg.gnupg import GPGUtilities
+from twisted.internet import defer
+from twisted.internet.threads import deferToThread
+
+from leap.common.check import leap_assert, leap_assert_type, leap_check
+from leap.keymanager import errors
+from leap.keymanager.wrapper import TempGPGWrapper
+from leap.keymanager.keys import (
+ OpenPGPKey,
+ is_address,
+ parse_address,
+ build_key_from_dict,
+)
+from leap.keymanager.documents import (
+ init_indexes,
+ TAGS_PRIVATE_INDEX,
+ TYPE_FINGERPRINT_PRIVATE_INDEX,
+ TYPE_ADDRESS_PRIVATE_INDEX,
+ KEY_UIDS_KEY,
+ KEY_FINGERPRINT_KEY,
+ KEY_PRIVATE_KEY,
+ KEY_REFRESHED_AT_KEY,
+ KEY_SIGN_USED_KEY,
+ KEY_ENCR_USED_KEY,
+ KEY_ADDRESS_KEY,
+ KEY_TYPE_KEY,
+ KEY_VERSION_KEY,
+ KEYMANAGER_DOC_VERSION,
+ KEYMANAGER_ACTIVE_TYPE,
+ KEYMANAGER_KEY_TAG,
+ KEYMANAGER_ACTIVE_TAG,
+)
+
+
+logger = logging.getLogger(__name__)
+
+
+#
+# A temporary GPG keyring wrapped to provide OpenPGP functionality.
+#
+
+# This function will be used to call blocking GPG functions outside
+# of Twisted reactor and match the concurrent calls to the amount of CPU cores
+cpu_core_semaphore = defer.DeferredSemaphore(cpu_count())
+
+
+def from_thread(func, *args, **kwargs):
+ call = lambda: deferToThread(func, *args, **kwargs)
+ return cpu_core_semaphore.run(call)
+
+
+#
+# The OpenPGP wrapper
+#
+
+class OpenPGPScheme(object):
+ """
+ A wrapper for OpenPGP keys management and use (encryption, decyption,
+ signing and verification).
+ """
+
+ # type used on the soledad documents
+ KEY_TYPE = OpenPGPKey.__name__
+ ACTIVE_TYPE = KEY_TYPE + KEYMANAGER_ACTIVE_TYPE
+
+ def __init__(self, soledad, gpgbinary=None):
+ """
+ Initialize the OpenPGP wrapper.
+
+ :param soledad: A Soledad instance for key storage.
+ :type soledad: leap.soledad.Soledad
+ :param gpgbinary: Name for GnuPG binary executable.
+ :type gpgbinary: C{str}
+ """
+ self._soledad = soledad
+ self._gpgbinary = gpgbinary
+ self.deferred_init = init_indexes(soledad)
+ self.deferred_init.addCallback(self._migrate_documents_schema)
+ self._wait_indexes("get_key", "put_key", "get_all_keys")
+
+ def _migrate_documents_schema(self, _):
+ from leap.keymanager.migrator import KeyDocumentsMigrator
+ migrator = KeyDocumentsMigrator(self._soledad)
+ return migrator.migrate()
+
+ def _wait_indexes(self, *methods):
+ """
+ Methods that need to wait for the indexes to be ready.
+
+ Heavily based on
+ http://blogs.fluidinfo.com/terry/2009/05/11/a-mixin-class-allowing-python-__init__-methods-to-work-with-twisted-deferreds/
+
+ :param methods: methods that need to wait for the indexes to be ready
+ :type methods: tuple(str)
+ """
+ self.waiting = []
+ self.stored = {}
+
+ def restore(_):
+ for method in self.stored:
+ setattr(self, method, self.stored[method])
+ for d in self.waiting:
+ d.callback(None)
+
+ def makeWrapper(method):
+ def wrapper(*args, **kw):
+ d = defer.Deferred()
+ d.addCallback(lambda _: self.stored[method](*args, **kw))
+ self.waiting.append(d)
+ return d
+ return wrapper
+
+ for method in methods:
+ self.stored[method] = getattr(self, method)
+ setattr(self, method, makeWrapper(method))
+
+ self.deferred_init.addCallback(restore)
+
+ #
+ # Keys management
+ #
+
+ 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: A Deferred which fires with the key bound to address, or fails
+ with KeyAlreadyExists if key already exists in local database.
+ :rtype: Deferred
+ """
+ # make sure the key does not already exist
+ leap_assert(is_address(address), 'Not an user address: %s' % address)
+
+ @defer.inlineCallbacks
+ def _gen_key(_):
+ with TempGPGWrapper(gpgbinary=self._gpgbinary) as gpg:
+ # TODO: inspect result, or use decorator
+ params = gpg.gen_key_input(
+ key_type='RSA',
+ key_length=4096,
+ name_real=address,
+ name_email=address,
+ name_comment='')
+ logger.info("About to generate keys... "
+ "This might take SOME time.")
+ yield from_thread(gpg.gen_key, params)
+ logger.info("Keys for %s have been successfully "
+ "generated." % (address,))
+ 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']))
+ uid_match = False
+ for uid in key['uids']:
+ if re.match('.*<%s>$' % address, uid) is not None:
+ uid_match = True
+ break
+ leap_assert(uid_match, 'Key not correctly bound to address.')
+
+ # insert both public and private keys in storage
+ deferreds = []
+ for secret in [True, False]:
+ key = gpg.list_keys(secret=secret).pop()
+ openpgp_key = self._build_key_from_gpg(
+ key,
+ gpg.export_keys(key['fingerprint'], secret=secret),
+ address)
+ d = self.put_key(openpgp_key)
+ deferreds.append(d)
+ yield defer.gatherResults(deferreds)
+
+ def key_already_exists(_):
+ raise errors.KeyAlreadyExists(address)
+
+ d = self.get_key(address)
+ d.addCallbacks(key_already_exists, _gen_key)
+ d.addCallback(lambda _: self.get_key(address, private=True))
+ return d
+
+ 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: A Deferred which fires with the OpenPGPKey bound to address,
+ or which fails with KeyNotFound if the key was not found on
+ local storage.
+ :rtype: Deferred
+ """
+ address = parse_address(address)
+
+ def build_key((keydoc, activedoc)):
+ if keydoc is None:
+ raise errors.KeyNotFound(address)
+ leap_assert(
+ address in keydoc.content[KEY_UIDS_KEY],
+ 'Wrong address in key %s. Expected %s, found %s.'
+ % (keydoc.content[KEY_FINGERPRINT_KEY], address,
+ keydoc.content[KEY_UIDS_KEY]))
+ key = build_key_from_dict(keydoc.content, activedoc.content)
+ key._gpgbinary = self._gpgbinary
+ return key
+
+ d = self._get_key_doc(address, private)
+ d.addCallback(build_key)
+ return d
+
+ @defer.inlineCallbacks
+ def get_all_keys(self, private=False):
+ """
+ Return all keys stored in local database.
+
+ :param private: Include private keys
+ :type private: bool
+
+ :return: A Deferred which fires with a list of all keys in local db.
+ :rtype: Deferred
+ """
+ HAS_ACTIVE = "has_active"
+
+ active_docs = yield self._soledad.get_from_index(
+ TAGS_PRIVATE_INDEX,
+ KEYMANAGER_ACTIVE_TAG,
+ '1' if private else '0')
+ key_docs = yield self._soledad.get_from_index(
+ TAGS_PRIVATE_INDEX,
+ KEYMANAGER_KEY_TAG,
+ '1' if private else '0')
+
+ keys = []
+ fp = lambda doc: doc.content[KEY_FINGERPRINT_KEY]
+ for active in active_docs:
+ fp_keys = filter(lambda k: fp(k) == fp(active), key_docs)
+
+ if len(fp_keys) == 0:
+ yield self._soledad.delete_doc(active)
+ continue
+ elif len(fp_keys) == 1:
+ key = fp_keys[0]
+ else:
+ key = yield self._repair_key_docs(fp_keys)
+ key.content[HAS_ACTIVE] = True
+ keys.append(build_key_from_dict(key.content, active.content))
+
+ unactive_keys = filter(lambda k: HAS_ACTIVE not in k.content, key_docs)
+ keys += map(lambda k: build_key_from_dict(k.content), unactive_keys)
+ defer.returnValue(keys)
+
+ def parse_key(self, key_data, address=None):
+ """
+ Parses a key (or key pair) data and returns
+ the OpenPGPKey keys.
+
+ :param key_data: the key data to be parsed.
+ :type key_data: str or unicode
+ :param address: Active address for the key.
+ :type address: str
+
+ :returns: the public key and private key (if applies) for that data.
+ :rtype: (public, private) -> tuple(OpenPGPKey, OpenPGPKey)
+ the tuple may have one or both components None
+ """
+ leap_assert_type(key_data, (str, unicode))
+ # TODO: add more checks for correct key data.
+ leap_assert(key_data is not None, 'Data does not represent a key.')
+
+ priv_info, privkey = process_key(
+ key_data, self._gpgbinary, secret=True)
+ pub_info, pubkey = process_key(
+ key_data, self._gpgbinary, secret=False)
+
+ if not pubkey:
+ return (None, None)
+
+ openpgp_privkey = None
+ if privkey:
+ # build private key
+ openpgp_privkey = self._build_key_from_gpg(priv_info, privkey,
+ address)
+ leap_check(pub_info['fingerprint'] == priv_info['fingerprint'],
+ 'Fingerprints for public and private key differ.',
+ errors.KeyFingerprintMismatch)
+ # build public key
+ openpgp_pubkey = self._build_key_from_gpg(pub_info, pubkey, address)
+
+ return (openpgp_pubkey, openpgp_privkey)
+
+ def put_raw_key(self, key_data, address):
+ """
+ Put key contained in C{key_data} in local storage.
+
+ :param key_data: The key data to be stored.
+ :type key_data: str or unicode
+ :param address: address for which this key will be active
+ :type address: str
+
+ :return: A Deferred which fires when the OpenPGPKey is in the storage.
+ :rtype: Deferred
+ """
+ leap_assert_type(key_data, (str, unicode))
+
+ openpgp_privkey = None
+ try:
+ openpgp_pubkey, openpgp_privkey = self.parse_key(
+ key_data, address)
+ except (errors.KeyAddressMismatch, errors.KeyFingerprintMismatch) as e:
+ return defer.fail(e)
+
+ def put_key(_, key):
+ return self.put_key(key)
+
+ d = defer.succeed(None)
+ if openpgp_pubkey is not None:
+ d.addCallback(put_key, openpgp_pubkey)
+ if openpgp_privkey is not None:
+ d.addCallback(put_key, openpgp_privkey)
+ return d
+
+ def put_key(self, key):
+ """
+ Put C{key} in local storage.
+
+ :param key: The key to be stored.
+ :type key: OpenPGPKey
+
+ :return: A Deferred which fires when the key is in the storage.
+ :rtype: Deferred
+ """
+ def merge_and_put((keydoc, activedoc)):
+ if not keydoc:
+ return put_new_key(activedoc)
+
+ active_content = None
+ if activedoc:
+ active_content = activedoc.content
+ oldkey = build_key_from_dict(keydoc.content, active_content)
+
+ key.merge(oldkey)
+ keydoc.set_json(key.get_json())
+ d = self._soledad.put_doc(keydoc)
+ d.addCallback(put_active, activedoc)
+ return d
+
+ def put_new_key(activedoc):
+ deferreds = []
+ if activedoc:
+ d = self._soledad.delete_doc(activedoc)
+ deferreds.append(d)
+ for json in [key.get_json(), key.get_active_json()]:
+ d = self._soledad.create_doc_from_json(json)
+ deferreds.append(d)
+ return defer.gatherResults(deferreds)
+
+ def put_active(_, activedoc):
+ active_json = key.get_active_json()
+ if activedoc:
+ activedoc.set_json(active_json)
+ d = self._soledad.put_doc(activedoc)
+ else:
+ d = self._soledad.create_doc_from_json(active_json)
+ return d
+
+ def get_active_doc(keydoc):
+ d = self._get_active_doc_from_address(key.address, key.private)
+ d.addCallback(lambda activedoc: (keydoc, activedoc))
+ return d
+
+ d = self._get_key_doc_from_fingerprint(key.fingerprint, key.private)
+ d.addCallback(get_active_doc)
+ d.addCallback(merge_and_put)
+ return d
+
+ 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: A Deferred which fires with a touple of two SoledadDocument
+ (keydoc, activedoc) or None if it does not exist.
+ :rtype: Deferred
+ """
+ def get_key_from_active_doc(activedoc):
+ if not activedoc:
+ return (None, None)
+ fingerprint = activedoc.content[KEY_FINGERPRINT_KEY]
+ d = self._get_key_doc_from_fingerprint(fingerprint, private)
+ d.addCallback(delete_active_if_no_key, activedoc)
+ return d
+
+ def delete_active_if_no_key(keydoc, activedoc):
+ if not keydoc:
+ d = self._soledad.delete_doc(activedoc)
+ d.addCallback(lambda _: (None, None))
+ return d
+ return (keydoc, activedoc)
+
+ d = self._get_active_doc_from_address(address, private)
+ d.addCallback(get_key_from_active_doc)
+ return d
+
+ def _build_key_from_gpg(self, key, key_data, address=None):
+ """
+ Build an OpenPGPKey for C{address} based on C{key} from
+ local gpg storage.
+
+ GPG key data has to be queried independently in this
+ wrapper, so we receive it in C{key_data}.
+
+ :param address: Active address for 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 build_gpg_key(key, key_data, address, self._gpgbinary)
+
+ def delete_key(self, key):
+ """
+ Remove C{key} from storage.
+
+ :param key: The key to be removed.
+ :type key: EncryptionKey
+
+ :return: A Deferred which fires when the key is deleted, or which
+ fails with KeyNotFound if the key was not found on local
+ storage.
+ :rtype: Deferred
+ """
+ leap_assert_type(key, OpenPGPKey)
+
+ def delete_docs(activedocs):
+ deferreds = []
+ for doc in activedocs:
+ d = self._soledad.delete_doc(doc)
+ deferreds.append(d)
+ return defer.gatherResults(deferreds)
+
+ def get_key_docs(_):
+ return self._soledad.get_from_index(
+ TYPE_FINGERPRINT_PRIVATE_INDEX,
+ self.KEY_TYPE,
+ key.fingerprint,
+ '1' if key.private else '0')
+
+ def delete_key(docs):
+ if len(docs) == 0:
+ raise errors.KeyNotFound(key)
+ elif len(docs) > 1:
+ logger.warning("There is more than one key for fingerprint %s"
+ % key.fingerprint)
+
+ has_deleted = False
+ deferreds = []
+ for doc in docs:
+ if doc.content['fingerprint'] == key.fingerprint:
+ d = self._soledad.delete_doc(doc)
+ deferreds.append(d)
+ has_deleted = True
+ if not has_deleted:
+ raise errors.KeyNotFound(key)
+ return defer.gatherResults(deferreds)
+
+ d = self._soledad.get_from_index(
+ TYPE_FINGERPRINT_PRIVATE_INDEX,
+ self.ACTIVE_TYPE,
+ key.fingerprint,
+ '1' if key.private else '0')
+ d.addCallback(delete_docs)
+ d.addCallback(get_key_docs)
+ d.addCallback(delete_key)
+ return d
+
+ #
+ # Data encryption, decryption, signing and verifying
+ #
+
+ @staticmethod
+ def _assert_gpg_result_ok(result):
+ """
+ Check if GPG result is 'ok' and log stderr outputs.
+
+ :param result: GPG results, which have a field calld 'ok' that states
+ whether the gpg operation was successful or not.
+ :type result: object
+
+ :raise GPGError: Raised when the gpg operation was not successful.
+ """
+ stderr = getattr(result, 'stderr', None)
+ if stderr:
+ logger.debug("%s" % (stderr,))
+ if getattr(result, 'ok', None) is not True:
+ raise errors.GPGError(
+ 'Failed to encrypt/decrypt: %s' % stderr)
+
+ @defer.inlineCallbacks
+ def encrypt(self, data, pubkey, passphrase=None, sign=None,
+ cipher_algo='AES256'):
+ """
+ Encrypt C{data} using public @{pubkey} 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
+ :param cipher_algo: The cipher algorithm to use.
+ :type cipher_algo: str
+
+ :return: A Deferred that will be fired with the encrypted data.
+ :rtype: defer.Deferred
+
+ :raise EncryptError: Raised if failed encrypting for some reason.
+ """
+ leap_assert_type(pubkey, OpenPGPKey)
+ leap_assert(pubkey.private is False, 'Key is not public.')
+ keys = [pubkey]
+ if sign is not None:
+ leap_assert_type(sign, OpenPGPKey)
+ leap_assert(sign.private is True)
+ keys.append(sign)
+ with TempGPGWrapper(keys, self._gpgbinary) as gpg:
+ result = yield from_thread(
+ gpg.encrypt,
+ data, pubkey.fingerprint,
+ default_key=sign.fingerprint if sign else None,
+ passphrase=passphrase, symmetric=False,
+ cipher_algo=cipher_algo)
+ # 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
+ try:
+ self._assert_gpg_result_ok(result)
+ defer.returnValue(result.data)
+ except errors.GPGError as e:
+ logger.warning('Failed to encrypt: %s.' % str(e))
+ raise errors.EncryptError()
+
+ @defer.inlineCallbacks
+ def decrypt(self, data, privkey, passphrase=None, verify=None):
+ """
+ Decrypt C{data} using private @{privkey} 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 passphrase: The passphrase for the secret key used for
+ decryption.
+ :type passphrase: str
+ :param verify: The key used to verify a signature.
+ :type verify: OpenPGPKey
+
+ :return: Deferred that will fire with the decrypted data and
+ if signature verifies (unicode, bool)
+ :rtype: Deferred
+
+ :raise DecryptError: Raised if failed decrypting for some reason.
+ """
+ leap_assert(privkey.private is True, 'Key is not private.')
+ keys = [privkey]
+ if verify is not None:
+ leap_assert_type(verify, OpenPGPKey)
+ leap_assert(verify.private is False)
+ keys.append(verify)
+ with TempGPGWrapper(keys, self._gpgbinary) as gpg:
+ try:
+ result = yield from_thread(gpg.decrypt,
+ data, passphrase=passphrase,
+ always_trust=True)
+ self._assert_gpg_result_ok(result)
+
+ # verify signature
+ sign_valid = False
+ if (verify is not None and
+ result.valid is True and
+ verify.fingerprint == result.pubkey_fingerprint):
+ sign_valid = True
+
+ defer.returnValue((result.data, sign_valid))
+ except errors.GPGError as e:
+ logger.warning('Failed to decrypt: %s.' % str(e))
+ raise errors.DecryptError(str(e))
+
+ def is_encrypted(self, 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
+ """
+ with TempGPGWrapper(gpgbinary=self._gpgbinary) as gpg:
+ gpgutil = GPGUtilities(gpg)
+ return gpgutil.is_encrypted_asym(data)
+
+ def sign(self, data, privkey, digest_algo='SHA512', clearsign=False,
+ detach=True, binary=False):
+ """
+ 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
+ :param digest_algo: The hash digest to use.
+ :type digest_algo: str
+ :param clearsign: If True, create a cleartext signature.
+ :type clearsign: bool
+ :param detach: If True, create a detached signature.
+ :type detach: bool
+ :param binary: If True, do not ascii armour the output.
+ :type binary: bool
+
+ :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.
+ with TempGPGWrapper(privkey, self._gpgbinary) as gpg:
+ result = gpg.sign(data, default_key=privkey.fingerprint,
+ digest_algo=digest_algo, clearsign=clearsign,
+ detach=detach, binary=binary)
+ rfprint = privkey.fingerprint
+ privkey = gpg.list_keys(secret=True).pop()
+ kfprint = privkey['fingerprint']
+ if result.fingerprint is None:
+ raise errors.SignFailed(
+ 'Failed to sign with key %s: %s' %
+ (privkey['fingerprint'], result.stderr))
+ leap_assert(
+ result.fingerprint == kfprint,
+ 'Signature and private key fingerprints mismatch: '
+ '%s != %s' % (rfprint, kfprint))
+ return result.data
+
+ def verify(self, data, pubkey, detached_sig=None):
+ """
+ Verify signed C{data} with C{pubkey}, eventually using
+ C{detached_sig}.
+
+ :param data: The data to be verified.
+ :type data: str
+ :param pubkey: The public key to be used on verification.
+ :type pubkey: OpenPGPKey
+ :param detached_sig: A detached signature. If given, C{data} is
+ verified against this detached signature.
+ :type detached_sig: str
+
+ :return: signature matches
+ :rtype: bool
+ """
+ leap_assert_type(pubkey, OpenPGPKey)
+ leap_assert(pubkey.private is False)
+ with TempGPGWrapper(pubkey, self._gpgbinary) as gpg:
+ result = None
+ if detached_sig is None:
+ result = gpg.verify(data)
+ else:
+ # to verify using a detached sig we have to use
+ # gpg.verify_file(), which receives the data as a binary
+ # stream and the name of a file containing the signature.
+ sf, sfname = tempfile.mkstemp()
+ with os.fdopen(sf, 'w') as sfd:
+ sfd.write(detached_sig)
+ result = gpg.verify_file(io.BytesIO(data), sig_file=sfname)
+ os.unlink(sfname)
+ gpgpubkey = gpg.list_keys().pop()
+ valid = result.valid
+ rfprint = result.fingerprint
+ kfprint = gpgpubkey['fingerprint']
+ return valid and rfprint == kfprint
+
+ def _get_active_doc_from_address(self, address, private):
+ d = self._soledad.get_from_index(
+ TYPE_ADDRESS_PRIVATE_INDEX,
+ self.ACTIVE_TYPE,
+ address,
+ '1' if private else '0')
+ d.addCallback(self._repair_and_get_doc, self._repair_active_docs)
+ d.addCallback(self._check_version)
+ return d
+
+ def _get_key_doc_from_fingerprint(self, fingerprint, private):
+ d = self._soledad.get_from_index(
+ TYPE_FINGERPRINT_PRIVATE_INDEX,
+ self.KEY_TYPE,
+ fingerprint,
+ '1' if private else '0')
+ d.addCallback(self._repair_and_get_doc, self._repair_key_docs)
+ d.addCallback(self._check_version)
+ return d
+
+ def _repair_and_get_doc(self, doclist, repair_func):
+ if len(doclist) is 0:
+ return None
+ elif len(doclist) > 1:
+ return repair_func(doclist)
+ return doclist[0]
+
+ def _check_version(self, doc):
+ if doc is not None:
+ version = doc.content[KEY_VERSION_KEY]
+ if version > KEYMANAGER_DOC_VERSION:
+ raise errors.KeyVersionError(str(version))
+ return doc
+
+ def _repair_key_docs(self, doclist):
+ """
+ If there is more than one key for a key id try to self-repair it
+
+ :return: a Deferred that will be fired with the valid key doc once all
+ the deletions are completed
+ :rtype: Deferred
+ """
+ def log_key_doc(doc):
+ logger.error("\t%s: %s" % (doc.content[KEY_UIDS_KEY],
+ doc.content[KEY_FINGERPRINT_KEY]))
+
+ def cmp_key(d1, d2):
+ return cmp(d1.content[KEY_REFRESHED_AT_KEY],
+ d2.content[KEY_REFRESHED_AT_KEY])
+
+ return self._repair_docs(doclist, cmp_key, log_key_doc)
+
+ @defer.inlineCallbacks
+ def _repair_active_docs(self, doclist):
+ """
+ If there is more than one active doc for an address try to self-repair
+ it
+
+ :return: a Deferred that will be fired with the valid active doc once
+ all the deletions are completed
+ :rtype: Deferred
+ """
+ keys = {}
+ for doc in doclist:
+ fp = doc.content[KEY_FINGERPRINT_KEY]
+ private = doc.content[KEY_PRIVATE_KEY]
+ try:
+ key = yield self._get_key_doc_from_fingerprint(fp, private)
+ keys[fp] = key
+ except Exception:
+ pass
+
+ def log_active_doc(doc):
+ logger.error("\t%s: %s" % (doc.content[KEY_ADDRESS_KEY],
+ doc.content[KEY_FINGERPRINT_KEY]))
+
+ def cmp_active(d1, d2):
+ # XXX: for private keys it will be nice to check which key is known
+ # by the nicknym server and keep this one. But this needs a
+ # refactor that might not be worth it.
+ used1 = (d1.content[KEY_SIGN_USED_KEY] +
+ d1.content[KEY_ENCR_USED_KEY])
+ used2 = (d2.content[KEY_SIGN_USED_KEY] +
+ d2.content[KEY_ENCR_USED_KEY])
+ res = cmp(used1, used2)
+ if res != 0:
+ return res
+
+ key1 = keys[d1.content[KEY_FINGERPRINT_KEY]]
+ key2 = keys[d2.content[KEY_FINGERPRINT_KEY]]
+ return cmp(key1.content[KEY_REFRESHED_AT_KEY],
+ key2.content[KEY_REFRESHED_AT_KEY])
+
+ doc = yield self._repair_docs(doclist, cmp_active, log_active_doc)
+ defer.returnValue(doc)
+
+ def _repair_docs(self, doclist, cmp_func, log_func):
+ logger.error("BUG ---------------------------------------------------")
+ logger.error("There is more than one doc of type %s:"
+ % (doclist[0].content[KEY_TYPE_KEY],))
+
+ doclist.sort(cmp=cmp_func, reverse=True)
+ log_func(doclist[0])
+ deferreds = []
+ for doc in doclist[1:]:
+ log_func(doc)
+ d = self._soledad.delete_doc(doc)
+ deferreds.append(d)
+
+ logger.error("")
+ logger.error(traceback.extract_stack())
+ logger.error("BUG (please report above info) ------------------------")
+ d = defer.gatherResults(deferreds, consumeErrors=True)
+ d.addCallback(lambda _: doclist[0])
+ return d
+
+
+def process_key(key_data, gpgbinary, secret=False):
+ with TempGPGWrapper(gpgbinary=gpgbinary) as gpg:
+ try:
+ gpg.import_keys(key_data)
+ info = gpg.list_keys(secret=secret).pop()
+ key = gpg.export_keys(info['fingerprint'], secret=secret)
+ except IndexError:
+ info = {}
+ key = None
+ return info, key
+
+
+def build_gpg_key(key_info, key_data, address=None, gpgbinary=None):
+ expiry_date = None
+ if key_info['expires']:
+ expiry_date = datetime.fromtimestamp(int(key_info['expires']))
+ uids = []
+ for uid in key_info['uids']:
+ uids.append(parse_address(uid))
+ if address and address not in uids:
+ raise errors.KeyAddressMismatch("UIDs %s found, but expected %s"
+ % (str(uids), address))
+
+ return OpenPGPKey(
+ address=address,
+ uids=uids,
+ gpgbinary=gpgbinary,
+ fingerprint=key_info['fingerprint'],
+ key_data=key_data,
+ private=True if key_info['type'] == 'sec' else False,
+ length=int(key_info['length']),
+ expiry_date=expiry_date,
+ refreshed_at=datetime.now())