# -*- coding: utf-8 -*- # This file is part of the Calibre-Web (https://github.com/janeczku/calibre-web) # Copyright (C) 2012-2019 mutschler, jkrehm, cervinko, janeczku, OzzieIsaacs, csitko # ok11, issmirnov, idalin # # 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 . import atexit import os import sys import datetime import itertools import uuid from flask import session as flask_session from binascii import hexlify from flask_login import AnonymousUserMixin, current_user from flask_login import user_logged_in try: from flask_dance.consumer.backend.sqla import OAuthConsumerMixin oauth_support = True except ImportError as e: # fails on flask-dance >1.3, due to renaming try: from flask_dance.consumer.storage.sqla import OAuthConsumerMixin oauth_support = True except ImportError as e: OAuthConsumerMixin = BaseException oauth_support = False from sqlalchemy import create_engine, exc, exists, event, text from sqlalchemy import Column, ForeignKey from sqlalchemy import String, Integer, SmallInteger, Boolean, DateTime, Float, JSON from sqlalchemy.orm.attributes import flag_modified from sqlalchemy.sql.expression import func try: # Compatibility with sqlalchemy 2.0 from sqlalchemy.orm import declarative_base except ImportError: from sqlalchemy.ext.declarative import declarative_base from sqlalchemy.orm import backref, relationship, sessionmaker, Session, scoped_session from werkzeug.security import generate_password_hash from . import constants, logger log = logger.create() session = None app_DB_path = None Base = declarative_base() searched_ids = {} logged_in = dict() def signal_store_user_session(object, user): store_user_session() def store_user_session(): if flask_session.get('user_id', ""): flask_session['_user_id'] = flask_session.get('user_id', "") if flask_session.get('_user_id', ""): try: if not check_user_session(flask_session.get('_user_id', ""), flask_session.get('_id', "")): user_session = User_Sessions(flask_session.get('_user_id', ""), flask_session.get('_id', "")) session.add(user_session) session.commit() log.debug("Login and store session : " + flask_session.get('_id', "")) else: log.debug("Found stored session: " + flask_session.get('_id', "")) except (exc.OperationalError, exc.InvalidRequestError) as e: session.rollback() log.exception(e) else: log.error("No user id in session") def delete_user_session(user_id, session_key): try: log.debug("Deleted session_key: " + session_key) session.query(User_Sessions).filter(User_Sessions.user_id == user_id, User_Sessions.session_key == session_key).delete() session.commit() except (exc.OperationalError, exc.InvalidRequestError) as ex: session.rollback() log.exception(ex) def check_user_session(user_id, session_key): try: return bool(session.query(User_Sessions).filter(User_Sessions.user_id==user_id, User_Sessions.session_key==session_key).one_or_none()) except (exc.OperationalError, exc.InvalidRequestError): session.rollback() log.exception(e) user_logged_in.connect(signal_store_user_session) def store_ids(result): ids = list() for element in result: ids.append(element.id) searched_ids[current_user.id] = ids def store_combo_ids(result): ids = list() for element in result: ids.append(element[0].id) searched_ids[current_user.id] = ids class UserBase: @property def is_authenticated(self): return self.is_active def _has_role(self, role_flag): return constants.has_flag(self.role, role_flag) def role_admin(self): return self._has_role(constants.ROLE_ADMIN) def role_download(self): return self._has_role(constants.ROLE_DOWNLOAD) def role_upload(self): return self._has_role(constants.ROLE_UPLOAD) def role_edit(self): return self._has_role(constants.ROLE_EDIT) def role_passwd(self): return self._has_role(constants.ROLE_PASSWD) def role_anonymous(self): return self._has_role(constants.ROLE_ANONYMOUS) def role_edit_shelfs(self): return self._has_role(constants.ROLE_EDIT_SHELFS) def role_delete_books(self): return self._has_role(constants.ROLE_DELETE_BOOKS) def role_viewer(self): return self._has_role(constants.ROLE_VIEWER) @property def is_active(self): return True @property def is_anonymous(self): return self.role_anonymous() def get_id(self): return str(self.id) def filter_language(self): return self.default_language def check_visibility(self, value): if value == constants.SIDEBAR_RECENT: return True return constants.has_flag(self.sidebar_view, value) def show_detail_random(self): return self.check_visibility(constants.DETAIL_RANDOM) def list_denied_tags(self): mct = self.denied_tags or "" return [t.strip() for t in mct.split(",")] def list_allowed_tags(self): mct = self.allowed_tags or "" return [t.strip() for t in mct.split(",")] def list_denied_column_values(self): mct = self.denied_column_value or "" return [t.strip() for t in mct.split(",")] def list_allowed_column_values(self): mct = self.allowed_column_value or "" return [t.strip() for t in mct.split(",")] def get_view_property(self, page, prop): if not self.view_settings.get(page): return None return self.view_settings[page].get(prop) def set_view_property(self, page, prop, value): if not self.view_settings.get(page): self.view_settings[page] = dict() self.view_settings[page][prop] = value try: flag_modified(self, "view_settings") except AttributeError: pass try: session.commit() except (exc.OperationalError, exc.InvalidRequestError) as e: session.rollback() log.error_or_exception(e) def __repr__(self): return '' % self.name # Baseclass for Users in Calibre-Web, settings which are depending on certain users are stored here. It is derived from # User Base (all access methods are declared there) class User(UserBase, Base): __tablename__ = 'user' __table_args__ = {'sqlite_autoincrement': True} id = Column(Integer, primary_key=True) name = Column(String(64), unique=True) email = Column(String(120), unique=True, default="") role = Column(SmallInteger, default=constants.ROLE_USER) password = Column(String) kindle_mail = Column(String(120), default="") shelf = relationship('Shelf', backref='user', lazy='dynamic', order_by='Shelf.name') downloads = relationship('Downloads', backref='user', lazy='dynamic') locale = Column(String(2), default="en") sidebar_view = Column(Integer, default=1) default_language = Column(String(3), default="all") denied_tags = Column(String, default="") allowed_tags = Column(String, default="") denied_column_value = Column(String, default="") allowed_column_value = Column(String, default="") remote_auth_token = relationship('RemoteAuthToken', backref='user', lazy='dynamic') view_settings = Column(JSON, default={}) kobo_only_shelves_sync = Column(Integer, default=0) if oauth_support: class OAuth(OAuthConsumerMixin, Base): provider_user_id = Column(String(256)) user_id = Column(Integer, ForeignKey(User.id)) user = relationship(User) class OAuthProvider(Base): __tablename__ = 'oauthProvider' id = Column(Integer, primary_key=True) provider_name = Column(String) oauth_client_id = Column(String) oauth_client_secret = Column(String) oauth_userinfo_url = Column(String) oauth_base_url = Column(String) oauth_auth_url = Column(String, default="/protocol/openid-connect/auth") oauth_token_url = Column(String, default="/protocol/openid-connect/token") scope = Column(String, default="openid profile email") username_mapper = Column(String, default="preferred_username") email_mapper = Column(String, default="email") login_button = Column(String) active = Column(Boolean) # Class for anonymous user is derived from User base and completly overrides methods and properties for the # anonymous user class Anonymous(AnonymousUserMixin, UserBase): def __init__(self): self.loadSettings() def loadSettings(self): data = session.query(User).filter(User.role.op('&')(constants.ROLE_ANONYMOUS) == constants.ROLE_ANONYMOUS)\ .first() # type: User self.name = data.name self.role = data.role self.id=data.id self.sidebar_view = data.sidebar_view self.default_language = data.default_language self.locale = data.locale self.kindle_mail = data.kindle_mail self.denied_tags = data.denied_tags self.allowed_tags = data.allowed_tags self.denied_column_value = data.denied_column_value self.allowed_column_value = data.allowed_column_value self.view_settings = data.view_settings self.kobo_only_shelves_sync = data.kobo_only_shelves_sync def role_admin(self): return False @property def is_active(self): return False @property def is_anonymous(self): return True @property def is_authenticated(self): return False def get_view_property(self, page, prop): if 'view' in flask_session: if not flask_session['view'].get(page): return None return flask_session['view'][page].get(prop) return None def set_view_property(self, page, prop, value): if not 'view' in flask_session: flask_session['view'] = dict() if not flask_session['view'].get(page): flask_session['view'][page] = dict() flask_session['view'][page][prop] = value class User_Sessions(Base): __tablename__ = 'user_session' id = Column(Integer, primary_key=True) user_id = Column(Integer, ForeignKey('user.id')) session_key = Column(String, default="") def __init__(self, user_id, session_key): self.user_id = user_id self.session_key = session_key # Baseclass representing Shelfs in calibre-web in app.db class Shelf(Base): __tablename__ = 'shelf' id = Column(Integer, primary_key=True) uuid = Column(String, default=lambda: str(uuid.uuid4())) name = Column(String) is_public = Column(Integer, default=0) user_id = Column(Integer, ForeignKey('user.id')) kobo_sync = Column(Boolean, default=False) books = relationship("BookShelf", backref="ub_shelf", cascade="all, delete-orphan", lazy="dynamic") created = Column(DateTime, default=datetime.datetime.utcnow) last_modified = Column(DateTime, default=datetime.datetime.utcnow, onupdate=datetime.datetime.utcnow) def __repr__(self): return '' % (self.id, self.name) # Baseclass representing Relationship between books and Shelfs in Calibre-Web in app.db (N:M) class BookShelf(Base): __tablename__ = 'book_shelf_link' id = Column(Integer, primary_key=True) book_id = Column(Integer) order = Column(Integer) shelf = Column(Integer, ForeignKey('shelf.id')) date_added = Column(DateTime, default=datetime.datetime.utcnow) def __repr__(self): return '' % self.id # This table keeps track of deleted Shelves so that deletes can be propagated to any paired Kobo device. class ShelfArchive(Base): __tablename__ = 'shelf_archive' id = Column(Integer, primary_key=True) uuid = Column(String) user_id = Column(Integer, ForeignKey('user.id')) last_modified = Column(DateTime, default=datetime.datetime.utcnow) class ReadBook(Base): __tablename__ = 'book_read_link' STATUS_UNREAD = 0 STATUS_FINISHED = 1 STATUS_IN_PROGRESS = 2 id = Column(Integer, primary_key=True) book_id = Column(Integer, unique=False) user_id = Column(Integer, ForeignKey('user.id'), unique=False) read_status = Column(Integer, unique=False, default=STATUS_UNREAD, nullable=False) kobo_reading_state = relationship("KoboReadingState", uselist=False, primaryjoin="and_(ReadBook.user_id == foreign(KoboReadingState.user_id), " "ReadBook.book_id == foreign(KoboReadingState.book_id))", cascade="all", backref=backref("book_read_link", uselist=False)) last_modified = Column(DateTime, default=datetime.datetime.utcnow, onupdate=datetime.datetime.utcnow) last_time_started_reading = Column(DateTime, nullable=True) times_started_reading = Column(Integer, default=0, nullable=False) class Bookmark(Base): __tablename__ = 'bookmark' id = Column(Integer, primary_key=True) user_id = Column(Integer, ForeignKey('user.id')) book_id = Column(Integer) format = Column(String(collation='NOCASE')) bookmark_key = Column(String) # Baseclass representing books that are archived on the user's Kobo device. class ArchivedBook(Base): __tablename__ = 'archived_book' id = Column(Integer, primary_key=True) user_id = Column(Integer, ForeignKey('user.id')) book_id = Column(Integer) is_archived = Column(Boolean, unique=False) last_modified = Column(DateTime, default=datetime.datetime.utcnow) class KoboSyncedBooks(Base): __tablename__ = 'kobo_synced_books' id = Column(Integer, primary_key=True, autoincrement=True) user_id = Column(Integer, ForeignKey('user.id')) book_id = Column(Integer) # The Kobo ReadingState API keeps track of 4 timestamped entities: # ReadingState, StatusInfo, Statistics, CurrentBookmark # Which we map to the following 4 tables: # KoboReadingState, ReadBook, KoboStatistics and KoboBookmark class KoboReadingState(Base): __tablename__ = 'kobo_reading_state' id = Column(Integer, primary_key=True, autoincrement=True) user_id = Column(Integer, ForeignKey('user.id')) book_id = Column(Integer) last_modified = Column(DateTime, default=datetime.datetime.utcnow, onupdate=datetime.datetime.utcnow) priority_timestamp = Column(DateTime, default=datetime.datetime.utcnow, onupdate=datetime.datetime.utcnow) current_bookmark = relationship("KoboBookmark", uselist=False, backref="kobo_reading_state", cascade="all, delete") statistics = relationship("KoboStatistics", uselist=False, backref="kobo_reading_state", cascade="all, delete") class KoboBookmark(Base): __tablename__ = 'kobo_bookmark' id = Column(Integer, primary_key=True) kobo_reading_state_id = Column(Integer, ForeignKey('kobo_reading_state.id')) last_modified = Column(DateTime, default=datetime.datetime.utcnow, onupdate=datetime.datetime.utcnow) location_source = Column(String) location_type = Column(String) location_value = Column(String) progress_percent = Column(Float) content_source_progress_percent = Column(Float) class KoboStatistics(Base): __tablename__ = 'kobo_statistics' id = Column(Integer, primary_key=True) kobo_reading_state_id = Column(Integer, ForeignKey('kobo_reading_state.id')) last_modified = Column(DateTime, default=datetime.datetime.utcnow, onupdate=datetime.datetime.utcnow) remaining_time_minutes = Column(Integer) spent_reading_minutes = Column(Integer) # Updates the last_modified timestamp in the KoboReadingState table if any of its children tables are modified. @event.listens_for(Session, 'before_flush') def receive_before_flush(session, flush_context, instances): for change in itertools.chain(session.new, session.dirty): if isinstance(change, (ReadBook, KoboStatistics, KoboBookmark)): if change.kobo_reading_state: change.kobo_reading_state.last_modified = datetime.datetime.utcnow() # Maintain the last_modified bit for the Shelf table. for change in itertools.chain(session.new, session.deleted): if isinstance(change, BookShelf): change.ub_shelf.last_modified = datetime.datetime.utcnow() # Baseclass representing Downloads from calibre-web in app.db class Downloads(Base): __tablename__ = 'downloads' id = Column(Integer, primary_key=True) book_id = Column(Integer) user_id = Column(Integer, ForeignKey('user.id')) def __repr__(self): return '".format(self.domain) class RemoteAuthToken(Base): __tablename__ = 'remote_auth_token' id = Column(Integer, primary_key=True) auth_token = Column(String, unique=True) user_id = Column(Integer, ForeignKey('user.id')) verified = Column(Boolean, default=False) expiration = Column(DateTime) token_type = Column(Integer, default=0) def __init__(self): self.auth_token = (hexlify(os.urandom(4))).decode('utf-8') self.expiration = datetime.datetime.now() + datetime.timedelta(minutes=10) # 10 min from now def __repr__(self): return '' % self.id def filename(context): file_format = context.get_current_parameters()['format'] if file_format == 'jpeg': return context.get_current_parameters()['uuid'] + '.jpg' else: return context.get_current_parameters()['uuid'] + '.' + file_format class Thumbnail(Base): __tablename__ = 'thumbnail' id = Column(Integer, primary_key=True) entity_id = Column(Integer) uuid = Column(String, default=lambda: str(uuid.uuid4()), unique=True) format = Column(String, default='jpeg') type = Column(SmallInteger, default=constants.THUMBNAIL_TYPE_COVER) resolution = Column(SmallInteger, default=constants.COVER_THUMBNAIL_SMALL) filename = Column(String, default=filename) generated_at = Column(DateTime, default=lambda: datetime.datetime.utcnow()) expiration = Column(DateTime, nullable=True) # Add missing tables during migration of database def add_missing_tables(engine, _session): if not engine.dialect.has_table(engine.connect(), "book_read_link"): ReadBook.__table__.create(bind=engine) if not engine.dialect.has_table(engine.connect(), "bookmark"): Bookmark.__table__.create(bind=engine) if not engine.dialect.has_table(engine.connect(), "kobo_reading_state"): KoboReadingState.__table__.create(bind=engine) if not engine.dialect.has_table(engine.connect(), "kobo_bookmark"): KoboBookmark.__table__.create(bind=engine) if not engine.dialect.has_table(engine.connect(), "kobo_statistics"): KoboStatistics.__table__.create(bind=engine) if not engine.dialect.has_table(engine.connect(), "archived_book"): ArchivedBook.__table__.create(bind=engine) if not engine.dialect.has_table(engine.connect(), "thumbnail"): Thumbnail.__table__.create(bind=engine) if oauth_support: if not engine.dialect.has_table(engine.connect(), "oauthProvider"): OAuthProvider.__table__.create(bind=engine) if not engine.dialect.has_table(engine.connect(), "flask_dance_oauth"): OAuth.__table__.create(bind=engine) if not engine.dialect.has_table(engine.connect(), "registration"): Registration.__table__.create(bind=engine) with engine.connect() as conn: conn.execute("insert into registration (domain, allow) values('%.%',1)") _session.commit() # migrate all settings missing in registration table def migrate_registration_table(engine, _session): try: _session.query(exists().where(Registration.allow)).scalar() _session.commit() except exc.OperationalError: # Database is not compatible, some columns are missing with engine.connect() as conn: conn.execute("ALTER TABLE registration ADD column 'allow' INTEGER") conn.execute("update registration set 'allow' = 1") _session.commit() try: # Handle table exists, but no content cnt = _session.query(Registration).count() if not cnt: with engine.connect() as conn: conn.execute("insert into registration (domain, allow) values('%.%',1)") _session.commit() except exc.OperationalError: # Database is not writeable print('Settings database is not writeable. Exiting...') sys.exit(2) # Remove login capability of user Guest def migrate_guest_password(engine): try: with engine.connect() as conn: trans = conn.begin() conn.execute(text("UPDATE user SET password='' where name = 'Guest' and password !=''")) trans.commit() except exc.OperationalError: print('Settings database is not writeable. Exiting...') sys.exit(2) def migrate_shelfs(engine, _session): try: _session.query(exists().where(Shelf.uuid)).scalar() except exc.OperationalError: with engine.connect() as conn: conn.execute("ALTER TABLE shelf ADD column 'uuid' STRING") conn.execute("ALTER TABLE shelf ADD column 'created' DATETIME") conn.execute("ALTER TABLE shelf ADD column 'last_modified' DATETIME") conn.execute("ALTER TABLE book_shelf_link ADD column 'date_added' DATETIME") conn.execute("ALTER TABLE shelf ADD column 'kobo_sync' BOOLEAN DEFAULT false") for shelf in _session.query(Shelf).all(): shelf.uuid = str(uuid.uuid4()) shelf.created = datetime.datetime.now() shelf.last_modified = datetime.datetime.now() for book_shelf in _session.query(BookShelf).all(): book_shelf.date_added = datetime.datetime.now() _session.commit() try: _session.query(exists().where(Shelf.kobo_sync)).scalar() except exc.OperationalError: with engine.connect() as conn: conn.execute("ALTER TABLE shelf ADD column 'kobo_sync' BOOLEAN DEFAULT false") _session.commit() try: _session.query(exists().where(BookShelf.order)).scalar() except exc.OperationalError: # Database is not compatible, some columns are missing with engine.connect() as conn: conn.execute("ALTER TABLE book_shelf_link ADD column 'order' INTEGER DEFAULT 1") _session.commit() def migrate_readBook(engine, _session): try: _session.query(exists().where(ReadBook.read_status)).scalar() except exc.OperationalError: with engine.connect() as conn: conn.execute("ALTER TABLE book_read_link ADD column 'read_status' INTEGER DEFAULT 0") conn.execute("UPDATE book_read_link SET 'read_status' = 1 WHERE is_read") conn.execute("ALTER TABLE book_read_link ADD column 'last_modified' DATETIME") conn.execute("ALTER TABLE book_read_link ADD column 'last_time_started_reading' DATETIME") conn.execute("ALTER TABLE book_read_link ADD column 'times_started_reading' INTEGER DEFAULT 0") _session.commit() test = _session.query(ReadBook).filter(ReadBook.last_modified == None).all() for book in test: book.last_modified = datetime.datetime.utcnow() _session.commit() def migrate_remoteAuthToken(engine, _session): try: _session.query(exists().where(RemoteAuthToken.token_type)).scalar() _session.commit() except exc.OperationalError: # Database is not compatible, some columns are missing with engine.connect() as conn: conn.execute("ALTER TABLE remote_auth_token ADD column 'token_type' INTEGER DEFAULT 0") conn.execute("update remote_auth_token set 'token_type' = 0") _session.commit() # Migrate database to current version, has to be updated after every database change. Currently migration from # everywhere to current should work. Migration is done by checking if relevant columns are existing, and than adding # rows with SQL commands def migrate_Database(_session): engine = _session.bind add_missing_tables(engine, _session) migrate_registration_table(engine, _session) migrate_readBook(engine, _session) migrate_remoteAuthToken(engine, _session) migrate_shelfs(engine, _session) try: create = False _session.query(exists().where(User.sidebar_view)).scalar() except exc.OperationalError: # Database is not compatible, some columns are missing with engine.connect() as conn: conn.execute("ALTER TABLE user ADD column `sidebar_view` Integer DEFAULT 1") _session.commit() create = True try: if create: with engine.connect() as conn: conn.execute("SELECT language_books FROM user") _session.commit() except exc.OperationalError: with engine.connect() as conn: conn.execute("UPDATE user SET 'sidebar_view' = (random_books* :side_random + language_books * :side_lang " "+ series_books * :side_series + category_books * :side_category + hot_books * " ":side_hot + :side_autor + :detail_random)", {'side_random': constants.SIDEBAR_RANDOM, 'side_lang': constants.SIDEBAR_LANGUAGE, 'side_series': constants.SIDEBAR_SERIES, 'side_category': constants.SIDEBAR_CATEGORY, 'side_hot': constants.SIDEBAR_HOT, 'side_autor': constants.SIDEBAR_AUTHOR, 'detail_random': constants.DETAIL_RANDOM}) _session.commit() try: _session.query(exists().where(User.denied_tags)).scalar() except exc.OperationalError: # Database is not compatible, some columns are missing with engine.connect() as conn: conn.execute("ALTER TABLE user ADD column `denied_tags` String DEFAULT ''") conn.execute("ALTER TABLE user ADD column `allowed_tags` String DEFAULT ''") conn.execute("ALTER TABLE user ADD column `denied_column_value` String DEFAULT ''") conn.execute("ALTER TABLE user ADD column `allowed_column_value` String DEFAULT ''") _session.commit() try: _session.query(exists().where(User.view_settings)).scalar() except exc.OperationalError: with engine.connect() as conn: conn.execute("ALTER TABLE user ADD column `view_settings` VARCHAR(10) DEFAULT '{}'") _session.commit() try: _session.query(exists().where(User.kobo_only_shelves_sync)).scalar() except exc.OperationalError: with engine.connect() as conn: conn.execute("ALTER TABLE user ADD column `kobo_only_shelves_sync` SMALLINT DEFAULT 0") _session.commit() try: # check if name is in User table instead of nickname _session.query(exists().where(User.name)).scalar() except exc.OperationalError: # Create new table user_id and copy contents of table user into it with engine.connect() as conn: conn.execute(text("CREATE TABLE user_id (id INTEGER NOT NULL PRIMARY KEY AUTOINCREMENT," "name VARCHAR(64)," "email VARCHAR(120)," "role SMALLINT," "password VARCHAR," "kindle_mail VARCHAR(120)," "locale VARCHAR(2)," "sidebar_view INTEGER," "default_language VARCHAR(3)," "denied_tags VARCHAR," "allowed_tags VARCHAR," "denied_column_value VARCHAR," "allowed_column_value VARCHAR," "view_settings JSON," "kobo_only_shelves_sync SMALLINT," "UNIQUE (name)," "UNIQUE (email))")) conn.execute(text("INSERT INTO user_id(id, name, email, role, password, kindle_mail,locale," "sidebar_view, default_language, denied_tags, allowed_tags, denied_column_value, " "allowed_column_value, view_settings, kobo_only_shelves_sync)" "SELECT id, nickname, email, role, password, kindle_mail, locale," "sidebar_view, default_language, denied_tags, allowed_tags, denied_column_value, " "allowed_column_value, view_settings, kobo_only_shelves_sync FROM user")) # delete old user table and rename new user_id table to user: conn.execute(text("DROP TABLE user")) conn.execute(text("ALTER TABLE user_id RENAME TO user")) _session.commit() if _session.query(User).filter(User.role.op('&')(constants.ROLE_ANONYMOUS) == constants.ROLE_ANONYMOUS).first() \ is None: create_anonymous_user(_session) migrate_guest_password(engine) def clean_database(_session): # Remove expired remote login tokens now = datetime.datetime.now() _session.query(RemoteAuthToken).filter(now > RemoteAuthToken.expiration).\ filter(RemoteAuthToken.token_type != 1).delete() _session.commit() # Save downloaded books per user in calibre-web's own database def update_download(book_id, user_id): check = session.query(Downloads).filter(Downloads.user_id == user_id).filter(Downloads.book_id == book_id).first() if not check: new_download = Downloads(user_id=user_id, book_id=book_id) session.add(new_download) try: session.commit() except exc.OperationalError: session.rollback() # Delete non exisiting downloaded books in calibre-web's own database def delete_download(book_id): session.query(Downloads).filter(book_id == Downloads.book_id).delete() try: session.commit() except exc.OperationalError: session.rollback() # Generate user Guest (translated text), as anonymous user, no rights def create_anonymous_user(_session): user = User() user.name = "Guest" user.email = 'no@email' user.role = constants.ROLE_ANONYMOUS user.password = '' _session.add(user) try: _session.commit() except Exception: _session.rollback() # Generate User admin with admin123 password, and access to everything def create_admin_user(_session): user = User() user.name = "admin" user.role = constants.ADMIN_USER_ROLES user.sidebar_view = constants.ADMIN_USER_SIDEBAR user.password = generate_password_hash(constants.DEFAULT_PASSWORD) _session.add(user) try: _session.commit() except Exception: _session.rollback() def init_db_thread(): global app_DB_path engine = create_engine(u'sqlite:///{0}'.format(app_DB_path), echo=False) Session = scoped_session(sessionmaker()) Session.configure(bind=engine) return Session() def init_db(app_db_path, user_credentials=None): # Open session for database connection global session global app_DB_path app_DB_path = app_db_path engine = create_engine(u'sqlite:///{0}'.format(app_db_path), echo=False) Session = scoped_session(sessionmaker()) Session.configure(bind=engine) session = Session() if os.path.exists(app_db_path): Base.metadata.create_all(engine) migrate_Database(session) clean_database(session) else: Base.metadata.create_all(engine) create_admin_user(session) create_anonymous_user(session) if user_credentials: username, password = user_credentials.split(':', 1) user = session.query(User).filter(func.lower(User.name) == username.lower()).first() if user: if not password: print("Empty password is not allowed") sys.exit(4) user.password = generate_password_hash(password) if session_commit() == "": print("Password for user '{}' changed".format(username)) sys.exit(0) else: print("Failed changing password") sys.exit(3) else: print("Username '{}' not valid, can't change password".format(username)) sys.exit(3) def get_new_session_instance(): new_engine = create_engine(u'sqlite:///{0}'.format(app_DB_path), echo=False) new_session = scoped_session(sessionmaker()) new_session.configure(bind=new_engine) atexit.register(lambda: new_session.remove() if new_session else True) return new_session def dispose(): global session old_session = session session = None if old_session: try: old_session.close() except Exception: pass if old_session.bind: try: old_session.bind.dispose() except Exception: pass def session_commit(success=None, _session=None): s = _session if _session else session try: s.commit() if success: log.info(success) except (exc.OperationalError, exc.InvalidRequestError) as e: s.rollback() log.error_or_exception(e) return ""