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quay/data/users/__init__.py
Joseph Schorr 38a6b3621c Automatically link the superuser account to federated service for auth
When the user commits the configuration, if they have chosen a non-DB auth system, we now auto-link the superuser account to that auth system, to ensure they can login again after restart.
2015-07-22 13:37:23 -04:00

167 lines
5.6 KiB
Python

import logging
import itertools
import json
import uuid
import features
from data import model
from data.users.database import DatabaseUsers
from data.users.externalldap import LDAPUsers
from data.users.externaljwt import ExternalJWTAuthN
from data.users.keystone import KeystoneUsers
from util.aes import AESCipher
logger = logging.getLogger(__name__)
def get_federated_service_name(authentication_type):
if authentication_type == 'LDAP':
return 'ldap'
if authentication_type == 'JWT':
return 'jwtauthn'
if authentication_type == 'Keystone':
return 'keystone'
raise Exception('Unknown auth type: %s' % authentication_type)
class UserAuthentication(object):
def __init__(self, app=None, override_config_dir=None):
self.app_secret_key = None
self.app = app
if app is not None:
self.state = self.init_app(app, override_config_dir)
else:
self.state = None
def init_app(self, app, override_config_dir):
self.app_secret_key = app.config['SECRET_KEY']
authentication_type = app.config.get('AUTHENTICATION_TYPE', 'Database')
if authentication_type == 'Database':
users = DatabaseUsers()
elif authentication_type == 'LDAP':
ldap_uri = app.config.get('LDAP_URI', 'ldap://localhost')
base_dn = app.config.get('LDAP_BASE_DN')
admin_dn = app.config.get('LDAP_ADMIN_DN')
admin_passwd = app.config.get('LDAP_ADMIN_PASSWD')
user_rdn = app.config.get('LDAP_USER_RDN', [])
uid_attr = app.config.get('LDAP_UID_ATTR', 'uid')
email_attr = app.config.get('LDAP_EMAIL_ATTR', 'mail')
users = LDAPUsers(ldap_uri, base_dn, admin_dn, admin_passwd, user_rdn, uid_attr, email_attr)
elif authentication_type == 'JWT':
verify_url = app.config.get('JWT_VERIFY_ENDPOINT')
issuer = app.config.get('JWT_AUTH_ISSUER')
max_fresh_s = app.config.get('JWT_AUTH_MAX_FRESH_S', 300)
users = ExternalJWTAuthN(verify_url, issuer, override_config_dir,
app.config['HTTPCLIENT'], max_fresh_s)
elif authentication_type == 'Keystone':
auth_url = app.config.get('KEYSTONE_AUTH_URL')
keystone_admin_username = app.config.get('KEYSTONE_ADMIN_USERNAME')
keystone_admin_password = app.config.get('KEYSTONE_ADMIN_PASSWORD')
keystone_admin_tenant = app.config.get('KEYSTONE_ADMIN_TENANT')
users = KeystoneUsers(auth_url, keystone_admin_username, keystone_admin_password,
keystone_admin_tenant)
else:
raise RuntimeError('Unknown authentication type: %s' % authentication_type)
# register extension with app
app.extensions = getattr(app, 'extensions', {})
app.extensions['authentication'] = users
return users
def _get_secret_key(self):
""" Returns the secret key to use for encrypting and decrypting. """
secret_key = None
# First try parsing the key as an int.
try:
big_int = int(self.app_secret_key)
secret_key = str(bytearray.fromhex('{:02x}'.format(big_int)))
except ValueError:
pass
# Next try parsing it as an UUID.
if secret_key is None:
try:
secret_key = uuid.UUID(self.app_secret_key).bytes
except ValueError:
pass
if secret_key is None:
secret_key = str(bytearray(map(ord, self.app_secret_key)))
# Otherwise, use the bytes directly.
return ''.join(itertools.islice(itertools.cycle(secret_key), 32))
def encrypt_user_password(self, password):
""" Returns an encrypted version of the user's password. """
data = {
'password': password
}
message = json.dumps(data)
cipher = AESCipher(self._get_secret_key())
return cipher.encrypt(message)
def _decrypt_user_password(self, encrypted):
""" Attempts to decrypt the given password and returns it. """
cipher = AESCipher(self._get_secret_key())
try:
message = cipher.decrypt(encrypted)
except ValueError:
return None
except TypeError:
return None
try:
data = json.loads(message)
except ValueError:
return None
return data.get('password', encrypted)
def confirm_existing_user(self, username, password):
""" Verifies that the given password matches to the given DB username. Unlike
verify_credentials, this call first translates the DB user via the FederatedLogin table
(where applicable).
"""
return self.state.confirm_existing_user(username, password)
def verify_credentials(self, username_or_email, password):
""" Verifies that the given username and password credentials are valid. """
return self.state.verify_credentials(username_or_email, password)
def verify_and_link_user(self, username_or_email, password, basic_auth=False):
""" Verifies that the given username and password credentials are valid and, if so,
creates or links the database user to the federated identity. """
# First try to decode the password as a signed token.
if basic_auth:
decrypted = self._decrypt_user_password(password)
if decrypted is None:
# This is a normal password.
if features.REQUIRE_ENCRYPTED_BASIC_AUTH:
msg = ('Client login with unencrypted passwords is disabled. Please generate an ' +
'encrypted password in the user admin panel for use here.')
return (None, msg)
else:
password = decrypted
(result, err_msg) = self.state.verify_and_link_user(username_or_email, password)
if not result:
return (result, err_msg)
if not result.enabled:
return (None, 'This user has been disabled. Please contact your administrator.')
return (result, err_msg)
def __getattr__(self, name):
return getattr(self.state, name, None)