# This file is part of Tryton. The COPYRIGHT file at the top level of # this repository contains the full copyright notices and license terms. import datetime import hashlib import logging import random import string import time import urllib.parse import warnings from email.header import Header from secrets import token_hex try: import bcrypt except ImportError: bcrypt = None try: import html2text except ImportError: html2text = None from sql import Literal from sql.conditionals import Coalesce from sql.functions import CurrentTimestamp from sql.operators import Equal from trytond.config import config from trytond.exceptions import RateLimitException from trytond.i18n import gettext from trytond.model import ( DeactivableMixin, Exclude, Index, ModelSQL, ModelView, Unique, avatar_mixin, fields) from trytond.pool import Pool from trytond.pyson import Eval from trytond.report import Report, get_email from trytond.res.user import CRYPT_CONTEXT, LoginAttempt from trytond.sendmail import sendmail_transactional from trytond.tools.email_ import ( EmailNotValidError, normalize_email, set_from_header, validate_email) from trytond.transaction import Transaction from .exceptions import UserValidationError logger = logging.getLogger(__name__) def _send_email(from_, users, email_func): from_cfg = config.get('email', 'from') for user in users: msg, title = email_func(user) set_from_header(msg, from_cfg, from_ or from_cfg) msg['To'] = user.email msg['Subject'] = Header(title, 'utf-8') sendmail_transactional(from_cfg, [user.email], msg) def _add_params(url, **params): parts = urllib.parse.urlsplit(url) query = urllib.parse.parse_qsl(parts.query) for key, value in sorted(params.items()): query.append((key, value)) parts = list(parts) parts[3] = urllib.parse.urlencode(query) return urllib.parse.urlunsplit(parts) def _extract_params(url): return urllib.parse.parse_qsl(urllib.parse.urlsplit(url).query) class User(avatar_mixin(100), DeactivableMixin, ModelSQL, ModelView): 'Web User' __name__ = 'web.user' _rec_name = 'email' email = fields.Char( "E-mail", states={ 'required': Eval('active', True), }) email_valid = fields.Boolean('E-mail Valid') email_token = fields.Char("E-mail Token", strip=False) password_hash = fields.Char('Password Hash') password = fields.Function( fields.Char('Password'), 'get_password', setter='set_password') reset_password_token = fields.Char("Reset Password Token", strip=False) reset_password_token_expire = fields.Timestamp( 'Reset Password Token Expire') party = fields.Many2One('party.party', 'Party', ondelete='RESTRICT') secondary_parties = fields.Many2Many( 'web.user-party.party.secondary', 'user', 'party', "Secondary Parties") @classmethod def __setup__(cls): super(User, cls).__setup__() table = cls.__table__() cls._sql_constraints += [ ('email_exclude', Exclude(table, (table.email, Equal), where=table.active == Literal(True)), 'web_user.msg_user_email_unique'), ] cls._sql_indexes.update({ Index(table, (table.email, Index.Equality())), Index(table, (table.email_token, Index.Equality())), }) cls._buttons.update({ 'validate_email': { 'readonly': Eval('email_valid', False), 'depends': ['email_valid'], }, 'reset_password': { 'readonly': ~Eval('email_valid', False), 'depends': ['email_valid'], }, }) @classmethod def default_email_valid(cls): return False def get_password(self, name): return 'x' * 10 @classmethod def set_password(cls, users, name, value): pool = Pool() User = pool.get('res.user') if value == 'x' * 10: return if Transaction().user and value: User.validate_password(value, users) to_write = [] for user in users: to_write.extend([[user], { 'password_hash': cls.hash_password(value), }]) cls.write(*to_write) @fields.depends('party', 'email') def on_change_party(self): if not self.email and self.party: self.email = self.party.email @classmethod def _format_email(cls, users): for user in users: email = normalize_email(user.email).lower() if email != user.email: user.email = email cls.save(users) @classmethod def copy(cls, users, default=None): default = default.copy() if default is not None else {} default['password_hash'] = None default['reset_password_token'] = None return super().copy(users, default=default) @classmethod def create(cls, vlist): users = super(User, cls).create(vlist) cls._format_email(users) return users @classmethod def write(cls, *args): super(User, cls).write(*args) users = sum(args[0:None:2], []) cls._format_email(users) @classmethod def validate_fields(cls, users, fields_names): super().validate_fields(users, fields_names) cls.check_valid_email(users, fields_names) @classmethod def check_valid_email(cls, users, fields_names=None): if fields_names and 'email' not in fields_names: return for user in users: if user.email: try: validate_email(user.email) except EmailNotValidError as e: raise UserValidationError(gettext( 'web_user.msg_user_email_invalid', user=user.rec_name, email=user.email), str(e)) from e @classmethod def authenticate(cls, email, password): pool = Pool() Attempt = pool.get('web.user.authenticate.attempt') email = email.lower() count_ip = Attempt.count_ip() if count_ip > config.getint( 'session', 'max_attempt_ip_network', default=300): # Do not add attempt as the goal is to prevent flooding raise RateLimitException() count = Attempt.count(email) if count > config.getint('session', 'max_attempt', default=5): Attempt.add(email) raise RateLimitException() # Prevent brute force attack Transaction().atexit(time.sleep, 2 ** count - 1) users = cls.search([('email', '=', email)]) if users: user, = users valid, new_hash = cls.check_password(password, user.password_hash) if valid: if new_hash: logger.info("Update password hash for %s", user.id) with Transaction().new_transaction() as transaction: with transaction.set_user(0): cls.write([cls(user.id)], { 'password_hash': new_hash, }) Attempt.remove(email) return user Attempt.add(email) @classmethod def hash_password(cls, password): '''Hash given password in the form $$...''' if not password: return '' return CRYPT_CONTEXT.hash(password) @classmethod def check_password(cls, password, hash_): if not hash_: return False, None try: return CRYPT_CONTEXT.verify_and_update(password, hash_) except ValueError: hash_method = hash_.split('$', 1)[0] warnings.warn( "Use deprecated hash method %s" % hash_method, DeprecationWarning) valid = getattr(cls, 'check_' + hash_method)(password, hash_) if valid: new_hash = CRYPT_CONTEXT.hash(password) else: new_hash = None return valid, new_hash @classmethod def hash_sha1(cls, password): salt = ''.join(random.sample(string.ascii_letters + string.digits, 8)) salted_password = password + salt if isinstance(salted_password, str): salted_password = salted_password.encode('utf-8') hash_ = hashlib.sha1(salted_password).hexdigest() return '$'.join(['sha1', hash_, salt]) @classmethod def check_sha1(cls, password, hash_): if isinstance(password, str): password = password.encode('utf-8') hash_method, hash_, salt = hash_.split('$', 2) salt = salt or '' if isinstance(salt, str): salt = salt.encode('utf-8') assert hash_method == 'sha1' return hash_ == hashlib.sha1(password + salt).hexdigest() @classmethod def hash_bcrypt(cls, password): if isinstance(password, str): password = password.encode('utf-8') hash_ = bcrypt.hashpw(password, bcrypt.gensalt()).decode('utf-8') return '$'.join(['bcrypt', hash_]) @classmethod def check_bcrypt(cls, password, hash_): if isinstance(password, str): password = password.encode('utf-8') hash_method, hash_ = hash_.split('$', 1) if isinstance(hash_, str): hash_ = hash_.encode('utf-8') assert hash_method == 'bcrypt' return hash_ == bcrypt.hashpw(password, hash_) def new_session(self): pool = Pool() Session = pool.get('web.user.session') return Session.add(self) @classmethod def get_user(cls, session): pool = Pool() Session = pool.get('web.user.session') return Session.get_user(session) @classmethod @ModelView.button def validate_email(cls, users, from_=None): for user in users: user.set_email_token() cls.save(users) _send_email(from_, users, cls.get_email_validation) def set_email_token(self, nbytes=None): self.email_token = token_hex(nbytes) def get_email_validation(self): return get_email( 'web.user.email_validation', self, self.languages) def get_email_validation_url(self, url=None): if url is None: url = config.get('web', 'email_validation_url') return _add_params(url, token=self.email_token) @classmethod def validate_email_url(cls, url): parts = urllib.parse.urlsplit(url) tokens = filter( None, urllib.parse.parse_qs(parts.query).get('token', [None])) return cls.validate_email_token(list(tokens)) @classmethod def validate_email_token(cls, tokens): users = cls.search([ ('email_token', 'in', tokens), ]) cls.write(users, { 'email_valid': True, 'email_token': None, }) return users @classmethod @ModelView.button def reset_password(cls, users, from_=None): now = datetime.datetime.now() # Prevent abusive reset def reset(user): return not (user.reset_password_token_expire and user.reset_password_token_expire > now) users = list(filter(reset, users)) for user in users: user.set_reset_password_token() cls.save(users) _send_email(from_, users, cls.get_email_reset_password) def set_reset_password_token(self, nbytes=None): self.reset_password_token = token_hex(nbytes) self.reset_password_token_expire = ( datetime.datetime.now() + datetime.timedelta( seconds=config.getint( 'session', 'web_timeout_reset', default=24 * 60 * 60))) def clear_reset_password_token(self): self.reset_password_token = None self.reset_password_token_expire = None def get_email_reset_password(self): return get_email( 'web.user.email_reset_password', self, self.languages) def get_email_reset_password_url(self, url=None): if url is None: url = config.get('web', 'reset_password_url') return _add_params( url, token=self.reset_password_token, email=self.email) @classmethod def set_password_url(cls, url, password): parts = urllib.parse.urlsplit(url) query = urllib.parse.parse_qs(parts.query) email = query.get('email', [None])[0] token = query.get('token', [None])[0] return cls.set_password_token(email, token, password) @classmethod def set_password_token(cls, email, token, password): pool = Pool() Attempt = pool.get('web.user.authenticate.attempt') email = email.lower() # Prevent brute force attack Transaction().atexit( time.sleep, random.randint(0, 2 ** Attempt.count(email) - 1)) users = cls.search([ ('email', '=', email), ]) if users: user, = users if user.reset_password_token == token: now = datetime.datetime.now() expire = user.reset_password_token_expire user.clear_reset_password_token() if expire > now: user.password = password user.save() Attempt.remove(email) return True Attempt.add(email) return False @property def languages(self): pool = Pool() Language = pool.get('ir.lang') if self.party and self.party.lang: languages = [self.party.lang] else: languages = Language.search([ ('code', '=', Transaction().language), ]) return languages class User_PartySecondary(ModelSQL): "Web User - Secondary Party" __name__ = 'web.user-party.party.secondary' user = fields.Many2One( 'web.user', "User", required=True, ondelete='CASCADE') party = fields.Many2One( 'party.party', "Party", required=True, ondelete='CASCADE') class UserAuthenticateAttempt(LoginAttempt): 'Web User Authenticate Attempt' __name__ = 'web.user.authenticate.attempt' _table = None # Needed to reset LoginAttempt._table class UserSession(ModelSQL): 'Web User Session' __name__ = 'web.user.session' _rec_name = 'key' key = fields.Char("Key", required=True, strip=False) user = fields.Many2One( 'web.user', "User", required=True, ondelete='CASCADE') @classmethod def __setup__(cls): super(UserSession, cls).__setup__() table = cls.__table__() cls.__rpc__ = {} cls._sql_constraints += [ ('key_unique', Unique(table, table.key), 'web_user.msg_user_session_key_unique'), ] cls._sql_indexes.update({ Index( table, (Coalesce(table.write_date, table.create_date), Index.Range())), Index(table, (table.key, Index.Equality())), }) @classmethod def default_key(cls, nbytes=None): return token_hex(nbytes) @classmethod def add(cls, user): cursor = Transaction().connection.cursor() table = cls.__table__() cursor.execute(*table.delete( where=( Coalesce(table.write_date, table.create_date) < CurrentTimestamp() - cls.timeout()))) session = cls(user=user) session.save() return session.key @classmethod def remove(cls, key): sessions = cls.search([ ('key', '=', key), ]) cls.delete(sessions) @classmethod def get_user(cls, session): transaction = Transaction() sessions = cls.search([ ('key', '=', session), ]) if not sessions: return session, = sessions if not session.expired: return session.user elif not transaction.readonly: cls.delete([session]) @classmethod def timeout(cls): return datetime.timedelta(seconds=config.getint( 'session', 'web_timeout', default=30 * 24 * 60 * 60)) @property def expired(self): now = datetime.datetime.now() timestamp = self.write_date or self.create_date return abs(timestamp - now) > self.timeout() @classmethod def reset(cls, session): sessions = cls.search([ ('key', '=', session), ]) cls.write(sessions, {}) @classmethod def create(cls, vlist): vlist = [v.copy() for v in vlist] for values in vlist: # Ensure to get a different key for each record # default methods are called only once values.setdefault('key', cls.default_key()) return super(UserSession, cls).create(vlist) class EmailValidation(Report): __name__ = 'web.user.email_validation' @classmethod def get_context(cls, records, header, data): context = super().get_context(records, header, data) context['extract_params'] = _extract_params return context class EmailResetPassword(Report): __name__ = 'web.user.email_reset_password' @classmethod def get_context(cls, records, header, data): context = super().get_context(records, header, data) context['extract_params'] = _extract_params expire_delay = ( records[0].reset_password_token_expire - datetime.datetime.now()) # Use a precision of minutes expire_delay = datetime.timedelta( days=expire_delay.days, minutes=round(expire_delay.seconds / 60)) context['expire_delay'] = expire_delay return context