platypush/platypush/user/__init__.py

313 lines
9.7 KiB
Python

import datetime
import hashlib
import random
import time
from typing import Optional, Dict
import bcrypt
try:
from jwt.exceptions import PyJWTError
from jwt import encode as jwt_encode, decode as jwt_decode
except ImportError:
from jwt import PyJWTError, encode as jwt_encode, decode as jwt_decode
from sqlalchemy import Column, Integer, String, DateTime, ForeignKey
from sqlalchemy.orm import make_transient, declarative_base
from platypush.context import get_plugin
from platypush.exceptions.user import (
InvalidJWTTokenException,
InvalidCredentialsException,
)
from platypush.utils import get_or_generate_jwt_rsa_key_pair
Base = declarative_base()
class UserManager:
"""
Main class for managing platform users
"""
def __init__(self):
self.db = get_plugin('db')
assert self.db
self._engine = self.db.get_engine()
self.db.create_all(self._engine, Base)
@staticmethod
def _mask_password(user):
make_transient(user)
user.password = None
return user
def get_user(self, username):
with self.db.get_session() as session:
user = self._get_user(session, username)
if not user:
return None
session.expunge(user)
return self._mask_password(user)
def get_user_count(self):
with self.db.get_session() as session:
return session.query(User).count()
def get_users(self):
with self.db.get_session() as session:
return session.query(User)
def create_user(self, username, password, **kwargs):
if not username:
raise ValueError('Invalid or empty username')
if not password:
raise ValueError('Please provide a password for the user')
with self.db.get_session() as session:
user = self._get_user(session, username)
if user:
raise NameError('The user {} already exists'.format(username))
record = User(
username=username,
password=self._encrypt_password(password),
created_at=datetime.datetime.utcnow(),
**kwargs
)
session.add(record)
session.commit()
user = self._get_user(session, username)
return self._mask_password(user)
def update_password(self, username, old_password, new_password):
with self.db.get_session() as session:
if not self._authenticate_user(session, username, old_password):
return False
user = self._get_user(session, username)
user.password = self._encrypt_password(new_password)
session.commit()
return True
def authenticate_user(self, username, password):
with self.db.get_session() as session:
return self._authenticate_user(session, username, password)
def authenticate_user_session(self, session_token):
with self.db.get_session() as session:
user_session = (
session.query(UserSession)
.filter_by(session_token=session_token)
.first()
)
if not user_session or (
user_session.expires_at
and user_session.expires_at < datetime.datetime.utcnow()
):
return None, None
user = session.query(User).filter_by(user_id=user_session.user_id).first()
return self._mask_password(user), user_session
def delete_user(self, username):
with self.db.get_session() as session:
user = self._get_user(session, username)
if not user:
raise NameError('No such user: {}'.format(username))
user_sessions = (
session.query(UserSession).filter_by(user_id=user.user_id).all()
)
for user_session in user_sessions:
session.delete(user_session)
session.delete(user)
session.commit()
return True
def delete_user_session(self, session_token):
with self.db.get_session() as session:
user_session = (
session.query(UserSession)
.filter_by(session_token=session_token)
.first()
)
if not user_session:
return False
session.delete(user_session)
session.commit()
return True
def create_user_session(self, username, password, expires_at=None):
with self.db.get_session() as session:
user = self._authenticate_user(session, username, password)
if not user:
return None
if expires_at:
if isinstance(expires_at, (int, float)):
expires_at = datetime.datetime.fromtimestamp(expires_at)
elif isinstance(expires_at, str):
expires_at = datetime.datetime.fromisoformat(expires_at)
user_session = UserSession(
user_id=user.user_id,
session_token=self.generate_session_token(),
csrf_token=self.generate_session_token(),
created_at=datetime.datetime.utcnow(),
expires_at=expires_at,
)
session.add(user_session)
session.commit()
return user_session
@staticmethod
def _get_user(session, username):
return session.query(User).filter_by(username=username).first()
@staticmethod
def _encrypt_password(pwd):
if isinstance(pwd, str):
pwd = pwd.encode()
return bcrypt.hashpw(pwd, bcrypt.gensalt(12)).decode()
@classmethod
def _check_password(cls, pwd, hashed_pwd):
return bcrypt.checkpw(cls._to_bytes(pwd), cls._to_bytes(hashed_pwd))
@staticmethod
def _to_bytes(data) -> bytes:
if isinstance(data, str):
data = data.encode()
return data
@staticmethod
def generate_session_token():
rand = bytes(random.randint(0, 255) for _ in range(0, 255))
return hashlib.sha256(rand).hexdigest()
def get_user_by_session(self, session_token: str):
"""
Get a user associated to a session token.
:param session_token: Session token.
"""
with self.db.get_session() as session:
return (
session.query(User)
.join(UserSession)
.filter_by(session_token=session_token)
.first()
)
def generate_jwt_token(
self,
username: str,
password: str,
expires_at: Optional[datetime.datetime] = None,
) -> str:
"""
Create a user JWT token for API usage.
:param username: User name.
:param password: Password.
:param expires_at: Expiration datetime of the token.
:return: The generated JWT token as a string.
:raises: :class:`platypush.exceptions.user.InvalidCredentialsException` in case of invalid credentials.
"""
user = self.authenticate_user(username, password)
if not user:
raise InvalidCredentialsException()
pub_key, priv_key = get_or_generate_jwt_rsa_key_pair()
payload = {
'username': username,
'created_at': datetime.datetime.now().timestamp(),
'expires_at': expires_at.timestamp() if expires_at else None,
}
token = jwt_encode(payload, priv_key, algorithm='RS256')
if isinstance(token, bytes):
token = token.decode()
return token
@staticmethod
def validate_jwt_token(token: str) -> Dict[str, str]:
"""
Validate a JWT token.
:param token: Token to validate.
:return: On success, it returns the JWT payload with the following structure:
.. code-block:: json
{
"username": "user ID/name",
"created_at": "token creation timestamp",
"expires_at": "token expiration timestamp"
}
:raises: :class:`platypush.exceptions.user.InvalidJWTTokenException` in case of invalid token.
"""
pub_key, priv_key = get_or_generate_jwt_rsa_key_pair()
try:
payload = jwt_decode(token.encode(), pub_key, algorithms=['RS256'])
except PyJWTError as e:
raise InvalidJWTTokenException(str(e))
expires_at = payload.get('expires_at')
if expires_at and time.time() > expires_at:
raise InvalidJWTTokenException('Expired JWT token')
return payload
def _authenticate_user(self, session, username, password):
"""
:return: :class:`platypush.user.User` instance if the user exists and the password is valid, ``None`` otherwise.
"""
user = self._get_user(session, username)
if not user:
return None
if not self._check_password(password, user.password):
return None
return user
class User(Base):
"""Models the User table"""
__tablename__ = 'user'
__table_args__ = {'sqlite_autoincrement': True}
user_id = Column(Integer, primary_key=True)
username = Column(String, unique=True, nullable=False)
password = Column(String)
created_at = Column(DateTime)
class UserSession(Base):
"""Models the UserSession table"""
__tablename__ = 'user_session'
__table_args__ = {'sqlite_autoincrement': True}
session_id = Column(Integer, primary_key=True)
session_token = Column(String, unique=True, nullable=False)
csrf_token = Column(String, unique=True)
user_id = Column(Integer, ForeignKey('user.user_id'), nullable=False)
created_at = Column(DateTime)
expires_at = Column(DateTime)
# vim:sw=4:ts=4:et: