def test_do_not_throw_error_for_empty_key_dict(self):
pgp = openpgp.OpenPGPScheme(self._soledad,
gpgbinary=self.gpg_binary_path)
rf = RandomRefreshPublicKey(pgp, self._key_manager())
pgp.get_all_keys = Mock(return_value=defer.succeed([]))
random_address = yield rf._get_random_key()
self.assertTrue(random_address is None)
def test_get_random_address(self):
pgp = openpgp.OpenPGPScheme(self._soledad,
gpgbinary=self.gpg_binary_path)
rf = RandomRefreshPublicKey(pgp, self._key_manager())
key = OpenPGPKey(address='*****@*****.**')
key_another = OpenPGPKey(address='*****@*****.**')
pgp.get_all_keys = Mock(return_value=defer.succeed([key, key_another]))
random_key = yield rf._get_random_key()
self.assertTrue(random_key.address == key.address
or random_key.address == key_another.address)
def test_key_expired_will_be_deactivatet(self):
pgp = openpgp.OpenPGPScheme(self._soledad,
gpgbinary=self.gpg_binary_path)
km = self._key_manager()
rf = RandomRefreshPublicKey(pgp, km)
key = OpenPGPKey(address='*****@*****.**', expiry_date=datetime.now())
self.assertTrue(key.address is '*****@*****.**')
pgp.unactivate_key = Mock(return_value=defer.succeed(None))
yield rf._maybe_unactivate_key(key)
self.assertTrue(key.address is None)
self.assertFalse(key.is_active())
def test_put_new_key_in_local_storage(self):
pgp = openpgp.OpenPGPScheme(self._soledad,
gpgbinary=self.gpg_binary_path)
km = self._key_manager()
rf = RandomRefreshPublicKey(pgp, km)
rf._get_random_key = Mock(
return_value=defer.succeed(OpenPGPKey(
fingerprint=KEY_FINGERPRINT)))
km._nicknym.fetch_key_with_fingerprint = Mock(
return_value=defer.succeed(PUBLIC_KEY_2))
yield rf.maybe_refresh_key()
def test_log_error_if_fetch_by_fingerprint_returns_wrong_key(self):
pgp = openpgp.OpenPGPScheme(self._soledad,
gpgbinary=self.gpg_binary_path)
km = self._key_manager()
with patch.object(Logger, 'error') as mock_logger_error:
rf = RandomRefreshPublicKey(pgp, km)
rf._get_random_key = \
Mock(return_value=defer.succeed(OpenPGPKey(
fingerprint=KEY_FINGERPRINT)))
km._nicknym.fetch_key_with_fingerprint = \
Mock(return_value=defer.succeed(PUBLIC_KEY_2))
yield rf.maybe_refresh_key()
mock_logger_error.assert_called_with(
ERROR_UNEQUAL_FINGERPRINTS %
(KEY_FINGERPRINT, KEY_FINGERPRINT_2))
def test_start_refreshing(self):
pgp = openpgp.OpenPGPScheme(self._soledad,
gpgbinary=self.gpg_binary_path)
with patch.object(Logger, 'debug') as mock_logger_start:
rf = RandomRefreshPublicKey(pgp, self._key_manager())
rf.start()
mock_logger_start.assert_called_with(DEBUG_START_REFRESH)
rf.stop()
mock_logger_start.assert_called_with(DEBUG_STOP_REFRESH)
class KeyManager(object):
#
# server's key storage constants
#
log = Logger()
OPENPGP_KEY = 'openpgp'
PUBKEY_KEY = "user[public_key]"
def __init__(self,
address,
nickserver_uri,
soledad,
token=None,
ca_cert_path=None,
api_uri=None,
api_version=None,
uid=None,
gpgbinary=None,
combined_ca_bundle=None):
"""
Initialize a Key Manager for user's C{address} with provider's
nickserver reachable in C{nickserver_uri}.
:param address: The email address of the user of this Key Manager.
:type address: str
:param nickserver_uri: The URI of the nickserver.
:type nickserver_uri: str
:param soledad: A Soledad instance for local storage of keys.
:type soledad: leap.soledad.Soledad
:param token: The token for interacting with the webapp API.
:type token: str
:param ca_cert_path: The path to the CA certificate.
:type ca_cert_path: str
:param api_uri: The URI of the webapp API.
:type api_uri: str
:param api_version: The version of the webapp API.
:type api_version: str
:param uid: The user's UID.
:type uid: str
:param gpgbinary: Name for GnuPG binary executable.
:type gpgbinary: C{str}
"""
self._address = address
self._nickserver_uri = nickserver_uri
self._soledad = soledad
self._token = token
self.ca_cert_path = ca_cert_path
self.api_uri = api_uri
self.api_version = api_version
self.uid = uid
create = self._create_combined_bundle_file
try:
self._combined_ca_bundle = combined_ca_bundle or create()
except Exception:
self.log.warn('Error while creating combined ca bundle')
self._combined_ca_bundle = ''
self._async_client = HTTPClient(self._combined_ca_bundle)
self._nicknym = Nicknym(self._nickserver_uri, self._ca_cert_path,
self._token)
self.refresher = None
self._init_gpg(soledad, gpgbinary)
#
# utilities
#
def _init_gpg(self, soledad, gpgbinary):
self._openpgp = OpenPGPScheme(soledad, gpgbinary=gpgbinary)
def start_refresher(self):
self.refresher = RandomRefreshPublicKey(self._openpgp, self)
self.refresher.start()
def stop_refresher(self):
self.refresher.stop()
def _create_combined_bundle_file(self):
leap_ca_bundle = ca_bundle.where()
if self._ca_cert_path == leap_ca_bundle:
return self._ca_cert_path # don't merge file with itself
elif not self._ca_cert_path:
return leap_ca_bundle
tmp_file = tempfile.NamedTemporaryFile(delete=False)
with open(tmp_file.name, 'w') as fout:
fin = fileinput.input(files=(leap_ca_bundle, self._ca_cert_path))
for line in fin:
fout.write(line)
fin.close()
return tmp_file.name
@defer.inlineCallbacks
def _get_key_from_nicknym(self, address):
"""
Send a GET request to C{uri} containing C{data}.
:param address: The URI of the request.
:type address: str
:return: A deferred that will be fired with GET content as json (dict)
:rtype: Deferred
"""
try:
uri = self._nickserver_uri + '?address=' + address
content = yield self._fetch_and_handle_404_from_nicknym(
uri, address)
json_content = json.loads(content)
except keymanager_errors.KeyNotFound:
raise
except IOError as e:
self.log.warn("HTTP error retrieving key: %r" % (e, ))
self.log.warn("%s" % (content, ))
raise keymanager_errors.KeyNotFound(e.message), \
None, sys.exc_info()[2]
except ValueError as v:
self.log.warn("Invalid JSON data from key: %s" % (uri, ))
raise keymanager_errors.KeyNotFound(v.message + ' - ' + uri), \
None, sys.exc_info()[2]
except Exception as e:
self.log.warn("Error retrieving key: %r" % (e, ))
raise keymanager_errors.KeyNotFound(e.message), \
None, sys.exc_info()[2]
# Responses are now text/plain, although it's json anyway, but
# this will fail when it shouldn't
# leap_assert(
# res.headers['content-type'].startswith('application/json'),
# 'Content-type is not JSON.')
defer.returnValue(json_content)
def _fetch_and_handle_404_from_nicknym(self, uri, address):
"""
Send a GET request to C{uri} containing C{data}.
:param uri: The URI of the request.
:type uri: str
:param address: The email corresponding to the key.
:type address: str
:return: A deferred that will be fired with GET content as json (dict)
:rtype: Deferred
"""
def check_404(response):
if response.code == NOT_FOUND:
message = '%s: %s key not found.' % (response.code, address)
self.log.warn(message)
raise KeyNotFound(message), None, sys.exc_info()[2]
return response
d = self._nicknym._async_client_pinned.request(str(uri),
'GET',
callback=check_404)
d.addCallback(client.readBody)
return d
@defer.inlineCallbacks
def _get_with_combined_ca_bundle(self, uri, data=None):
"""
Send a GET request to C{uri} containing C{data}.
Instead of using the ca_cert provided on construction time, this
version also uses the default certificates shipped with leap.common
:param uri: The URI of the request.
:type uri: str
:param data: The body of the request.
:type data: dict, str or file
:return: A deferred that will be fired with the GET response
:rtype: Deferred
"""
try:
content = yield self._async_client.request(str(uri), 'GET')
except Exception as e:
self.log.warn("There was a problem fetching key: %s" % (e, ))
raise keymanager_errors.KeyNotFound(uri)
if not content:
raise keymanager_errors.KeyNotFound(uri)
defer.returnValue(content)
#
# key management
#
def send_key(self):
"""
Send user's key to provider.
Public key bound to user's is sent to provider, which will sign it and
replace any prior keys for the same address in its database.
:return: A Deferred which fires when the key is sent, or which fails
with KeyNotFound if the key was not found in local database.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
def send(pubkey):
d = self._nicknym.put_key(self.uid, pubkey.key_data, self._api_uri,
self._api_version)
d.addCallback(lambda _: emit_async(
catalog.KEYMANAGER_DONE_UPLOADING_KEYS, self._address))
return d
d = self.get_key(self._address, private=False, fetch_remote=False)
d.addCallback(send)
return d
@defer.inlineCallbacks
def _fetch_keys_from_server_and_store_local(self, address):
"""
Fetch keys from nickserver and insert them in locale database.
:param address: The address bound to the keys.
:type address: str
:return: A Deferred which fires when the key is in the storage,
or which fails with KeyNotFound if the key was not
found on nickserver.
:rtype: Deferred
"""
server_keys = yield self._nicknym.fetch_key_with_address(address)
# insert keys in local database
if self.OPENPGP_KEY in server_keys:
# nicknym server is authoritative for its own domain,
# for other domains the key might come from key servers.
validation_level = ValidationLevels.Weak_Chain
_, domain = _split_email(address)
if (domain == _get_domain(self._nickserver_uri)):
validation_level = ValidationLevels.Provider_Trust
yield self.put_raw_key(server_keys['openpgp'],
address=address,
validation=validation_level)
def get_key(self, address, private=False, fetch_remote=True):
"""
Return a key bound to address.
First, search for the key in local storage. If it is not available,
then try to fetch from nickserver.
: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
:param fetch_remote: If key not found in local storage try to fetch
from nickserver
:type fetch_remote: bool
:return: A Deferred which fires with an EncryptionKey bound to address,
or which fails with KeyNotFound if no key was found neither
locally or in keyserver or fail with KeyVersionError if the
key has a format not supported by this version of KeyManager
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
self.log.debug('Getting key for %s' % (address, ))
emit_async(catalog.KEYMANAGER_LOOKING_FOR_KEY, address)
def key_found(key):
emit_async(catalog.KEYMANAGER_KEY_FOUND, address)
return key
def key_not_found(failure):
if not failure.check(keymanager_errors.KeyNotFound):
return failure
emit_async(catalog.KEYMANAGER_KEY_NOT_FOUND, address)
# we will only try to fetch a key from nickserver if fetch_remote
# is True and the key is not private.
if fetch_remote is False or private is True:
return failure
emit_async(catalog.KEYMANAGER_LOOKING_FOR_KEY, address)
d = self._fetch_keys_from_server_and_store_local(address)
d.addCallback(
lambda _: self._openpgp.get_key(address, private=False))
d.addCallback(key_found)
return d
# return key if it exists in local database
d = self._openpgp.get_key(address, private=private)
d.addCallbacks(key_found, key_not_found)
return d
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
"""
return self._openpgp.get_all_keys(private)
def gen_key(self):
"""
Generate a key bound to the user's address.
:return: A Deferred which fires with the generated EncryptionKey.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
def signal_finished(key):
emit_async(catalog.KEYMANAGER_FINISHED_KEY_GENERATION,
self._address)
return key
emit_async(catalog.KEYMANAGER_STARTED_KEY_GENERATION, self._address)
d = self._openpgp.gen_key(self._address)
d.addCallback(signal_finished)
return d
#
# Setters/getters
#
def _get_token(self):
return self._token
def _set_token(self, token):
self._token = token
self._nicknym.token = token
token = property(_get_token, _set_token, doc='The session token.')
def _get_ca_cert_path(self):
return self._ca_cert_path
def _set_ca_cert_path(self, ca_cert_path):
self._ca_cert_path = ca_cert_path
ca_cert_path = property(_get_ca_cert_path,
_set_ca_cert_path,
doc='The path to the CA certificate.')
def _get_api_uri(self):
return self._api_uri
def _set_api_uri(self, api_uri):
self._api_uri = api_uri
api_uri = property(_get_api_uri, _set_api_uri, doc='The webapp API URI.')
def _get_api_version(self):
return self._api_version
def _set_api_version(self, api_version):
self._api_version = api_version
api_version = property(_get_api_version,
_set_api_version,
doc='The webapp API version.')
def _get_uid(self):
return self._uid
def _set_uid(self, uid):
self._uid = uid
uid = property(_get_uid, _set_uid, doc='The uid of the user.')
#
# encrypt/decrypt and sign/verify API
#
def encrypt(self,
data,
address,
passphrase=None,
sign=None,
cipher_algo='AES256',
fetch_remote=True):
"""
Encrypt data with the public key bound to address and sign with with
the private key bound to sign address.
:param data: The data to be encrypted.
:type data: str
:param address: The address to encrypt it for.
:type address: str
:param passphrase: The passphrase for the secret key used for the
signature.
:type passphrase: str
:param sign: The address to be used for signature.
:type sign: str
:param cipher_algo: The cipher algorithm to use.
:type cipher_algo: str
:param fetch_remote: If key is not found in local storage try to fetch
from nickserver
:type fetch_remote: bool
:return: A Deferred which fires with the encrypted data as str, or
which fails with KeyNotFound if no keys were found neither
locally or in keyserver or fails with KeyVersionError if the
key format is not supported or fails with EncryptError if
failed encrypting for some reason.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
@defer.inlineCallbacks
def encrypt(keys):
pubkey, signkey = keys
encrypted = yield self._openpgp.encrypt(data,
pubkey,
passphrase,
sign=signkey,
cipher_algo=cipher_algo)
if not pubkey.encr_used:
pubkey.encr_used = True
yield self._openpgp.put_key(pubkey)
defer.returnValue(encrypted)
dpub = self.get_key(address, private=False, fetch_remote=fetch_remote)
dpriv = defer.succeed(None)
if sign is not None:
dpriv = self.get_key(sign, private=True)
d = defer.gatherResults([dpub, dpriv], consumeErrors=True)
d.addCallbacks(encrypt, self._extract_first_error)
return d
def decrypt(self,
data,
address,
passphrase=None,
verify=None,
fetch_remote=True):
"""
Decrypt data using private key from address and verify with public key
bound to verify address.
:param data: The data to be decrypted.
:type data: str
:param address: The address to whom data was encrypted.
:type address: str
:param passphrase: The passphrase for the secret key used for
decryption.
:type passphrase: str
:param verify: The address to be used for signature.
:type verify: str
:param fetch_remote: If key for verify not found in local storage try
to fetch from nickserver
:type fetch_remote: bool
:return: A Deferred which fires with:
* (decripted str, signing key) if validation works
* (decripted str, KeyNotFound) if signing key not found
* (decripted str, InvalidSignature) if signature is invalid
* KeyNotFound failure if private key not found
* DecryptError failure if decription failed
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
@defer.inlineCallbacks
def decrypt(keys):
pubkey, privkey = keys
decrypted, signed = yield self._openpgp.decrypt(
data, privkey, passphrase=passphrase, verify=pubkey)
if pubkey is None:
signature = keymanager_errors.KeyNotFound(verify)
elif signed:
signature = pubkey
if not pubkey.sign_used:
pubkey.sign_used = True
yield self._openpgp.put_key(pubkey)
defer.returnValue((decrypted, signature))
else:
signature = keymanager_errors.InvalidSignature(
'Failed to verify signature with key %s' %
(pubkey.fingerprint, ))
defer.returnValue((decrypted, signature))
dpriv = self.get_key(address, private=True)
dpub = defer.succeed(None)
if verify is not None:
dpub = self.get_key(verify,
private=False,
fetch_remote=fetch_remote)
dpub.addErrback(lambda f: None
if f.check(keymanager_errors.KeyNotFound) else f)
d = defer.gatherResults([dpub, dpriv], consumeErrors=True)
d.addCallbacks(decrypt, self._extract_first_error)
return d
def _extract_first_error(self, failure):
return failure.value.subFailure
def sign(self,
data,
address,
digest_algo='SHA512',
clearsign=False,
detach=True,
binary=False):
"""
Sign data with private key bound to address.
:param data: The data to be signed.
:type data: str
:param address: The address to be used to sign.
:type address: EncryptionKey
: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: A Deferred which fires with the signed data as str or fails
with KeyNotFound if no key was found neither locally or in
keyserver or fails with SignFailed if there was any error
signing.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
def sign(privkey):
return self._openpgp.sign(data,
privkey,
digest_algo=digest_algo,
clearsign=clearsign,
detach=detach,
binary=binary)
d = self.get_key(address, private=True)
d.addCallback(sign)
return d
def verify(self, data, address, detached_sig=None, fetch_remote=True):
"""
Verify signed data with private key bound to address, eventually using
detached_sig.
:param data: The data to be verified.
:type data: str
:param address: The address to be used to verify.
:type address: EncryptionKey
:param detached_sig: A detached signature. If given, C{data} is
verified using this detached signature.
:type detached_sig: str
:param fetch_remote: If key for verify not found in local storage try
to fetch from nickserver
:type fetch_remote: bool
:return: A Deferred which fires with the signing EncryptionKey if
signature verifies, or which fails with InvalidSignature if
signature don't verifies or fails with KeyNotFound if no key
was found neither locally or in keyserver.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
def verify(pubkey):
signed = self._openpgp.verify(data,
pubkey,
detached_sig=detached_sig)
if signed:
if not pubkey.sign_used:
pubkey.sign_used = True
d = self._openpgp.put_key(pubkey)
d.addCallback(lambda _: pubkey)
return d
return pubkey
else:
raise keymanager_errors.InvalidSignature(
'Failed to verify signature with key %s' %
(pubkey.fingerprint, ))
d = self.get_key(address, private=False, fetch_remote=fetch_remote)
d.addCallback(verify)
return d
def delete_key(self, key):
"""
Remove 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
KeyNotFound if the key was not found on local storage.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
return self._openpgp.delete_key(key)
def put_key(self, key):
"""
Put key bound to address in local storage.
:param key: The key to be stored
:type key: EncryptionKey
:return: A Deferred which fires when the key is in the storage, or
which fails with KeyNotValidUpdate if a key with the same
uid exists and the new one is not a valid update for it.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
def old_key_not_found(failure):
if failure.check(keymanager_errors.KeyNotFound):
return None
else:
return failure
def check_upgrade(old_key):
if key.private or can_upgrade(key, old_key):
return self._openpgp.put_key(key)
else:
raise keymanager_errors.KeyNotValidUpgrade(
"Key %s can not be upgraded by new key %s" %
(old_key.fingerprint, key.fingerprint))
d = self._openpgp.get_key(key.address, private=key.private)
d.addErrback(old_key_not_found)
d.addCallback(check_upgrade)
return d
def put_raw_key(self,
key,
address,
validation=ValidationLevels.Weak_Chain):
"""
Put raw key bound to address in local storage.
:param key: The key to be stored
:type key: str
:param address: address for which this key will be active
:type address: str
:param validation: validation level for this key
(default: 'Weak_Chain')
:type validation: ValidationLevels
:return: A Deferred which fires when the key is in the storage, or
which fails with KeyAddressMismatch if address doesn't match
any uid on the key or fails with KeyNotFound if no OpenPGP
material was found in key or fails with KeyNotValidUpdate if a
key with the same uid exists and the new one is not a valid
update for it.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
pubkey, privkey = self._openpgp.parse_key(key, address)
if pubkey is None:
return defer.fail(keymanager_errors.KeyNotFound(key))
pubkey.validation = validation
d = self.put_key(pubkey)
if privkey is not None:
d.addCallback(lambda _: self.put_key(privkey))
return d
@defer.inlineCallbacks
def fetch_key(self, address, uri, validation=ValidationLevels.Weak_Chain):
"""
Fetch a public key bound to address from the network and put it in
local storage.
:param address: The email address of the key.
:type address: str
:param uri: The URI of the key.
:type uri: str
:param validation: validation level for this key
(default: 'Weak_Chain')
:type validation: ValidationLevels
:return: A Deferred which fires when the key is in the storage, or
which fails with KeyNotFound: if not valid key on uri or fails
with KeyAddressMismatch if address doesn't match any uid on
the key or fails with KeyNotValidUpdate if a key with the same
uid exists and the new one is not a valid update for it.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
self.log.info('Fetch key for %s from %s' % (address, uri))
key_content = yield self._get_with_combined_ca_bundle(uri)
# XXX parse binary keys
pubkey, _ = self._openpgp.parse_key(key_content, address)
if pubkey is None:
raise keymanager_errors.KeyNotFound(uri)
pubkey.validation = validation
yield self.put_key(pubkey)
def ever_synced(self):
# TODO: provide this method in soledad api, avoid using a private
# attribute here
d = self._soledad._dbpool.runQuery('SELECT * FROM sync_log')
d.addCallback(lambda result: bool(result))
return d
def start_refresher(self):
self.refresher = RandomRefreshPublicKey(self._openpgp, self)
self.refresher.start()
class KeyManager(object):
#
# server's key storage constants
#
log = Logger()
def __init__(self,
address,
nickserver_uri,
soledad,
token=None,
ca_cert_path=None,
api_uri=None,
api_version=None,
uid=None,
gpgbinary=None,
combined_ca_bundle=None):
"""
Initialize a Key Manager for user's C{address} with provider's
nickserver reachable in C{nickserver_uri}.
:param address: The email address of the user of this Key Manager.
:type address: str
:param nickserver_uri: The URI of the nickserver.
:type nickserver_uri: str
:param soledad: A Soledad instance for local storage of keys.
:type soledad: leap.soledad.Soledad
:param token: The token for interacting with the webapp API.
:type token: str
:param ca_cert_path: The path to the CA certificate.
:type ca_cert_path: str
:param api_uri: The URI of the webapp API.
:type api_uri: str
:param api_version: The version of the webapp API.
:type api_version: str
:param uid: The user's UID.
:type uid: str
:param gpgbinary: Name for GnuPG binary executable.
:type gpgbinary: C{str}
"""
self._address = address
self._nickserver_uri = nickserver_uri
self._soledad = soledad
self._token = token
self.ca_cert_path = ca_cert_path
self.api_uri = api_uri
self.api_version = api_version
self.uid = uid
create = self._create_combined_bundle_file
try:
self._combined_ca_bundle = combined_ca_bundle or create()
except Exception:
self.log.warn('Error while creating combined ca bundle')
self._combined_ca_bundle = ''
self._async_client = HTTPClient(self._combined_ca_bundle)
self._nicknym = Nicknym(self._nickserver_uri, self._ca_cert_path,
self._token)
self.refresher = None
self._init_gpg(soledad, gpgbinary)
#
# utilities
#
def _init_gpg(self, soledad, gpgbinary):
self._openpgp = OpenPGPScheme(soledad, gpgbinary=gpgbinary)
def start_refresher(self):
self.refresher = RandomRefreshPublicKey(self._openpgp, self)
self.refresher.start()
def stop_refresher(self):
self.refresher.stop()
def _create_combined_bundle_file(self):
leap_ca_bundle = ca_bundle.where()
if self._ca_cert_path == leap_ca_bundle:
return self._ca_cert_path # don't merge file with itself
elif not self._ca_cert_path:
return leap_ca_bundle
tmp_file = tempfile.NamedTemporaryFile(delete=False)
with open(tmp_file.name, 'w') as fout:
fin = fileinput.input(files=(leap_ca_bundle, self._ca_cert_path))
for line in fin:
fout.write(line)
fin.close()
return tmp_file.name
@defer.inlineCallbacks
def _get_with_combined_ca_bundle(self, uri, data=None):
"""
Send a GET request to C{uri} containing C{data}.
Instead of using the ca_cert provided on construction time, this
version also uses the default certificates shipped with leap.common
:param uri: The URI of the request.
:type uri: str
:param data: The body of the request.
:type data: dict, str or file
:return: A deferred that will be fired with the GET response
:rtype: Deferred
"""
try:
content = yield self._async_client.request(str(uri), 'GET')
except Exception as e:
self.log.warn("There was a problem fetching key: %s" % (e, ))
raise keymanager_errors.KeyNotFound(uri)
if not content:
raise keymanager_errors.KeyNotFound(uri)
defer.returnValue(content)
#
# key management
#
@defer.inlineCallbacks
def send_key(self):
"""
Send user's key to provider.
Public key bound to user's is sent to provider, which will
replace any prior keys for the same address in its database.
:return: A Deferred which fires when the key is sent, or which fails
with KeyNotFound if the key was not found in local database.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
if not self.token:
self.log.debug('Token not available, scheduling '
'a new key sending attempt...')
yield task.deferLater(reactor, 5, self.send_key)
self.log.info('Sending public key to server')
key = yield self.get_key(self._address, fetch_remote=False)
yield self._nicknym.put_key(self.uid, key.key_data, self._api_uri,
self._api_version)
emit_async(catalog.KEYMANAGER_DONE_UPLOADING_KEYS, self._address)
self.log.info('Key sent to server')
defer.returnValue(key)
@defer.inlineCallbacks
def _fetch_keys_from_server_and_store_local(self, address):
"""
Fetch keys from nickserver and insert them in locale database.
:param address: The address bound to the keys.
:type address: str
:return: A Deferred which fires when the key is in the storage,
or which fails with KeyNotFound if the key was not
found on nickserver.
:rtype: Deferred
"""
raw_key = yield self._nicknym.fetch_key_with_address(address)
# nicknym server is authoritative for its own domain,
# for other domains the key might come from key servers.
validation_level = ValidationLevels.Weak_Chain
_, domain = _split_email(address)
if (domain == _get_domain(self._nickserver_uri)):
validation_level = ValidationLevels.Provider_Trust
yield self.put_raw_key(raw_key,
address=address,
validation=validation_level)
@defer.inlineCallbacks
def _get_inactive_private_keys(self):
"""
Return all inactive private keys bound to address, that are
stored locally.
This can be used to attempt decryption from multiple keys.
:return: A Deferred which fires the list of inactive keys sorted
according to their expiry dates.
:rtype: Deferred
"""
all_keys = yield self.get_all_keys(private=True)
inactive_keys = filter(lambda _key: not _key.is_active(), all_keys)
inactive_keys = \
sorted(inactive_keys, key=lambda _key: _key.expiry_date)
defer.returnValue(inactive_keys)
def get_key(self, address, private=False, fetch_remote=True):
"""
Return a key bound to address.
First, search for the key in local storage. When it is available
locally but is expired or when it is not available locally,
then a fetch from nickserver is tried.
: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
:param fetch_remote: If key not found in local storage try to fetch
from nickserver
:type fetch_remote: bool
:return: A Deferred which fires with an EncryptionKey bound to address,
or which fails with KeyNotFound if no key was found neither
locally or in keyserver or fail with KeyVersionError if the
key has a format not supported by this version of KeyManager
or KeyNotValidUpgrade if the key is renewed remotely but fails
the validation rule
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
self.log.debug('Getting key for %s' % (address, ))
emit_async(catalog.KEYMANAGER_LOOKING_FOR_KEY, address)
@defer.inlineCallbacks
def maybe_extend_expiration(key):
if key.needs_renewal():
key = yield self._openpgp.expire(key, expiration_time='1y')
yield self.send_key()
defer.returnValue(key)
def key_found(key):
emit_async(catalog.KEYMANAGER_KEY_FOUND, address)
return key
def ensure_valid(key):
if key.is_expired():
self.log.info('Found expired key for %s.' % address)
return _fetch_remotely(key)
key_found(key)
return key
def key_not_found(failure):
if not failure.check(keymanager_errors.KeyNotFound):
return failure
emit_async(catalog.KEYMANAGER_KEY_NOT_FOUND, address)
return _fetch_remotely(failure)
def _fetch_remotely(passthru):
# we will only try to fetch a key from nickserver if fetch_remote
# is True and the key is not private.
if fetch_remote is False or private is True:
return passthru
self.log.debug('Fetching remotely key for %s.' % address)
emit_async(catalog.KEYMANAGER_LOOKING_FOR_KEY, address)
d = self._fetch_keys_from_server_and_store_local(address)
d.addCallback(
lambda _: self._openpgp.get_key(address, private=False))
d.addCallback(key_found)
return d
# return key if it exists in local database
d = self._openpgp.get_key(address, private=private)
if private:
d.addCallback(maybe_extend_expiration)
d.addCallbacks(ensure_valid, key_not_found)
return d
@defer.inlineCallbacks
def fetch_key_fingerprint(self, address, fingerprint):
"""
Fetch a key from the key servers by fingerprint.
It will replace any key assigned to the address in the keyring and have
validation level Fingerprint.
:param address: The address bound to the key.
:type address: str
:param fingerprint: The fingerprint of the key to fetch.
:type fingerprint: str
:return: A Deferred which fires with an EncryptionKey fetched,
or which fails with KeyNotFound if no key was found in the
keyserver for this fingerprint.
:rtype: Deferred
"""
key_data = yield self._nicknym.fetch_key_with_fingerprint(fingerprint)
key, _ = self._openpgp.parse_key(key_data, address)
key.validation = ValidationLevels.Fingerprint
if key.fingerprint != fingerprint:
raise keymanager_errors.KeyNotFound("Got wrong fingerprint")
try:
old_key = yield self._openpgp.get_key(address)
if old_key.fingerprint == key.fingerprint:
key.last_audited_at = old_key.last_audited_at
key.encr_used = old_key.encr_used
key.sign_used = old_key.sign_used
except keymanager_errors.KeyNotFound:
pass
yield self._openpgp.put_key(key)
defer.returnValue(key)
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
"""
return self._openpgp.get_all_keys(private)
def gen_key(self):
"""
Generate a key bound to the user's address.
:return: A Deferred which fires with the generated EncryptionKey.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
def signal_finished(key):
self.log.info('Key generated for %s' % self._address)
emit_async(catalog.KEYMANAGER_FINISHED_KEY_GENERATION,
self._address)
return key
emit_async(catalog.KEYMANAGER_STARTED_KEY_GENERATION, self._address)
d = self._openpgp.gen_key(self._address)
d.addCallback(signal_finished)
return d
#
# Setters/getters
#
def _get_token(self):
return self._token
def _set_token(self, token):
self._token = token
self._nicknym.token = token
token = property(_get_token, _set_token, doc='The session token.')
def _get_ca_cert_path(self):
return self._ca_cert_path
def _set_ca_cert_path(self, ca_cert_path):
self._ca_cert_path = ca_cert_path
ca_cert_path = property(_get_ca_cert_path,
_set_ca_cert_path,
doc='The path to the CA certificate.')
def _get_api_uri(self):
return self._api_uri
def _set_api_uri(self, api_uri):
self._api_uri = api_uri
api_uri = property(_get_api_uri, _set_api_uri, doc='The webapp API URI.')
def _get_api_version(self):
return self._api_version
def _set_api_version(self, api_version):
self._api_version = api_version
api_version = property(_get_api_version,
_set_api_version,
doc='The webapp API version.')
def _get_uid(self):
return self._uid
def _set_uid(self, uid):
self._uid = uid
uid = property(_get_uid, _set_uid, doc='The uid of the user.')
#
# encrypt/decrypt and sign/verify API
#
def encrypt(self,
data,
address,
passphrase=None,
sign=None,
cipher_algo='AES256',
fetch_remote=True):
"""
Encrypt data with the public key bound to address and sign with with
the private key bound to sign address.
:param data: The data to be encrypted.
:type data: str
:param address: The address to encrypt it for.
:type address: str
:param passphrase: The passphrase for the secret key used for the
signature.
:type passphrase: str
:param sign: The address to be used for signature.
:type sign: str
:param cipher_algo: The cipher algorithm to use.
:type cipher_algo: str
:param fetch_remote: If key is not found in local storage try to fetch
from nickserver
:type fetch_remote: bool
:return: A Deferred which fires with the encrypted data as str, or
which fails with KeyNotFound if no keys were found neither
locally or in keyserver or fails with KeyVersionError if the
key format is not supported or fails with EncryptError if
failed encrypting for some reason.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
@defer.inlineCallbacks
def encrypt(keys):
pubkey, signkey = keys
encrypted = yield self._openpgp.encrypt(data,
pubkey,
passphrase,
sign=signkey,
cipher_algo=cipher_algo)
if not pubkey.encr_used:
pubkey.encr_used = True
yield self._openpgp.put_key(pubkey)
defer.returnValue(encrypted)
dpub = self.get_key(address, private=False, fetch_remote=fetch_remote)
dpriv = defer.succeed(None)
if sign is not None:
dpriv = self.get_key(sign, private=True)
d = defer.gatherResults([dpub, dpriv], consumeErrors=True)
d.addCallbacks(encrypt, self._extract_first_error)
return d
def decrypt(self,
data,
address,
passphrase=None,
verify=None,
fetch_remote=True):
"""
Decrypt data using private key from address and verify with public key
bound to verify address. If the decryption using the active private
key fails, then decryption with inactive keys, if any, is recursively
tried.
:param data: The data to be decrypted.
:type data: str
:param address: The address to whom data was encrypted.
:type address: str
:param passphrase: The passphrase for the secret key used for
decryption.
:type passphrase: str
:param verify: The address to be used for signature.
:type verify: str
:param fetch_remote: If key for verify not found in local storage try
to fetch from nickserver
:type fetch_remote: bool
:return: A Deferred which fires with:
* (decripted str, signing key) if validation works
* (decripted str, KeyNotFound) if signing key not found
* (decripted str, InvalidSignature) if signature is invalid
* KeyNotFound failure if private key not found
* DecryptError failure if decription failed
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
@defer.inlineCallbacks
def _decrypt(keys):
pubkey, privkey = keys
decrypted, signed = yield self._openpgp.decrypt(
data, privkey, passphrase=passphrase, verify=pubkey)
if pubkey is None:
signature = keymanager_errors.KeyNotFound(verify)
elif signed:
signature = pubkey
if not pubkey.sign_used:
pubkey.sign_used = True
yield self._openpgp.put_key(pubkey)
defer.returnValue((decrypted, signature))
else:
signature = keymanager_errors.InvalidSignature(
'Failed to verify signature with key %s' %
(pubkey.fingerprint, ))
defer.returnValue((decrypted, signature))
@defer.inlineCallbacks
def decrypt_with_inactive_keys(inactive_keys, verify_key,
original_decrypt_err):
if not inactive_keys:
# when there are no more keys to go through
raise original_decrypt_err
try:
inactive_key = inactive_keys.pop()
result = yield _decrypt([verify_key, inactive_key])
except keymanager_errors.DecryptError:
result = yield decrypt_with_inactive_keys(
inactive_keys, verify_key, original_decrypt_err)
defer.returnValue(result)
@defer.inlineCallbacks
def decrypt(keys):
try:
result = yield _decrypt(keys)
except keymanager_errors.DecryptError as e:
verify_key, active_key = keys
inactive_keys = yield self._get_inactive_private_keys()
result = yield decrypt_with_inactive_keys(
inactive_keys, verify_key, e)
defer.returnValue(result)
dpriv = self.get_key(address, private=True)
dpub = defer.succeed(None)
if verify is not None:
dpub = self.get_key(verify,
private=False,
fetch_remote=fetch_remote)
dpub.addErrback(lambda f: None
if f.check(keymanager_errors.KeyNotFound) else f)
d = defer.gatherResults([dpub, dpriv], consumeErrors=True)
d.addCallbacks(decrypt, self._extract_first_error)
return d
def _extract_first_error(self, failure):
return failure.value.subFailure
def sign(self,
data,
address,
digest_algo='SHA512',
clearsign=False,
detach=True,
binary=False):
"""
Sign data with private key bound to address.
:param data: The data to be signed.
:type data: str
:param address: The address to be used to sign.
:type address: EncryptionKey
: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: A Deferred which fires with the signed data as str or fails
with KeyNotFound if no key was found neither locally or in
keyserver or fails with SignFailed if there was any error
signing.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
def sign(privkey):
return self._openpgp.sign(data,
privkey,
digest_algo=digest_algo,
clearsign=clearsign,
detach=detach,
binary=binary)
d = self.get_key(address, private=True)
d.addCallback(sign)
return d
def verify(self, data, address, detached_sig=None, fetch_remote=True):
"""
Verify signed data with private key bound to address, eventually using
detached_sig.
:param data: The data to be verified.
:type data: str
:param address: The address to be used to verify.
:type address: EncryptionKey
:param detached_sig: A detached signature. If given, C{data} is
verified using this detached signature.
:type detached_sig: str
:param fetch_remote: If key for verify not found in local storage try
to fetch from nickserver
:type fetch_remote: bool
:return: A Deferred which fires with the signing EncryptionKey if
signature verifies, or which fails with InvalidSignature if
signature don't verifies or fails with KeyNotFound if no key
was found neither locally or in keyserver.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
def verify(pubkey):
signed = self._openpgp.verify(data,
pubkey,
detached_sig=detached_sig)
if signed:
if not pubkey.sign_used:
pubkey.sign_used = True
d = self._openpgp.put_key(pubkey)
d.addCallback(lambda _: pubkey)
return d
return pubkey
else:
raise keymanager_errors.InvalidSignature(
'Failed to verify signature with key %s' %
(pubkey.fingerprint, ))
d = self.get_key(address, private=False, fetch_remote=fetch_remote)
d.addCallback(verify)
return d
def delete_key(self, key):
"""
Remove 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
KeyNotFound if the key was not found on local storage.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
return self._openpgp.delete_key(key)
def put_key(self, key):
"""
Put key bound to address in local storage.
:param key: The key to be stored
:type key: EncryptionKey
:return: A Deferred which fires when the key is in the storage, or
which fails with KeyNotValidUpdate if a key with the same
uid exists and the new one is not a valid update for it.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
def old_key_not_found(failure):
if failure.check(keymanager_errors.KeyNotFound):
return None
else:
return failure
def check_upgrade(old_key):
if key.private or can_upgrade(key, old_key):
return self._openpgp.put_key(key)
else:
raise keymanager_errors.KeyNotValidUpgrade(
"Key %s can not be upgraded by new key %s" %
(old_key.fingerprint, key.fingerprint))
d = self._openpgp.get_key(key.address, private=key.private)
d.addErrback(old_key_not_found)
d.addCallback(check_upgrade)
return d
@defer.inlineCallbacks
def put_raw_key(self,
key,
address,
validation=ValidationLevels.Weak_Chain):
"""
Put raw key bound to address in local storage.
:param key: The key to be stored
:type key: str
:param address: address for which this key will be active
:type address: str
:param validation: validation level for this key
(default: 'Weak_Chain')
:type validation: ValidationLevels
:return: A Deferred which fires when the key is in the storage, or
which fails with KeyAddressMismatch if address doesn't match
any uid on the key or fails with KeyNotFound if no OpenPGP
material was found in key or fails with KeyNotValidUpdate if a
key with the same uid exists and the new one is not a valid
update for it.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
pubkey, privkey = self._openpgp.parse_key(key, address)
if pubkey is None:
raise keymanager_errors.KeyNotFound(key)
if address == self._address and not privkey:
try:
existing = yield self.get_key(address, fetch_remote=False)
except KeyNotFound:
existing = None
if (existing is None
or pubkey.fingerprint != existing.fingerprint):
raise keymanager_errors.KeyNotValidUpgrade(
"Cannot update your %s key without the private part" %
(address, ))
pubkey.validation = validation
yield self.put_key(pubkey)
if privkey is not None:
yield self.put_key(privkey)
if address == self._address:
yield self.send_key()
@defer.inlineCallbacks
def fetch_key(self, address, uri, validation=ValidationLevels.Weak_Chain):
"""
Fetch a public key bound to address from the network and put it in
local storage.
:param address: The email address of the key.
:type address: str
:param uri: The URI of the key.
:type uri: str
:param validation: validation level for this key
(default: 'Weak_Chain')
:type validation: ValidationLevels
:return: A Deferred which fires when the key is in the storage, or
which fails with KeyNotFound: if not valid key on uri or fails
with KeyAddressMismatch if address doesn't match any uid on
the key or fails with KeyNotValidUpdate if a key with the same
uid exists and the new one is not a valid update for it.
:rtype: Deferred
:raise UnsupportedKeyTypeError: if invalid key type
"""
self.log.info('Fetch key for %s from %s' % (address, uri))
key_content = yield self._get_with_combined_ca_bundle(uri)
# XXX parse binary keys
pubkey, _ = self._openpgp.parse_key(key_content, address)
if pubkey is None:
raise keymanager_errors.KeyNotFound(uri)
pubkey.validation = validation
yield self.put_key(pubkey)
def test_random_interval_is_set_properly(self):
pgp = openpgp.OpenPGPScheme(self._soledad,
gpgbinary=self.gpg_binary_path)
rf = RandomRefreshPublicKey(pgp, self._key_manager())
self.assertTrue(rf._loop.interval >= MIN_RANDOM_INTERVAL_RANGE)
