# Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. # pylint: disable=too-many-lines """A set of constants and methods to manage permissions and security""" import logging import re import time from collections import defaultdict from typing import ( Any, Callable, cast, Dict, List, NamedTuple, Optional, Set, TYPE_CHECKING, Union, ) import jwt from flask import current_app, Flask, g, Request from flask_appbuilder import Model from flask_appbuilder.models.sqla.interface import SQLAInterface from flask_appbuilder.security.sqla.manager import SecurityManager from flask_appbuilder.security.sqla.models import ( assoc_permissionview_role, assoc_user_role, PermissionView, Role, User, ) from flask_appbuilder.security.views import ( PermissionModelView, PermissionViewModelView, RoleModelView, UserModelView, ViewMenuModelView, ) from flask_appbuilder.widgets import ListWidget from flask_login import AnonymousUserMixin, LoginManager from sqlalchemy import and_, or_ from sqlalchemy.engine.base import Connection from sqlalchemy.orm import Session from sqlalchemy.orm.mapper import Mapper from sqlalchemy.orm.query import Query as SqlaQuery from superset import sql_parse from superset.connectors.connector_registry import ConnectorRegistry from superset.constants import RouteMethod from superset.errors import ErrorLevel, SupersetError, SupersetErrorType from superset.exceptions import SupersetSecurityException from superset.security.guest_token import ( GuestToken, GuestTokenResources, GuestTokenResourceType, GuestTokenRlsRule, GuestTokenUser, GuestUser, ) from superset.utils.core import DatasourceName, RowLevelSecurityFilterType from superset.utils.urls import get_url_host if TYPE_CHECKING: from superset.common.query_context import QueryContext from superset.connectors.base.models import BaseDatasource from superset.connectors.druid.models import DruidCluster from superset.models.core import Database from superset.models.dashboard import Dashboard from superset.models.sql_lab import Query from superset.sql_parse import Table from superset.viz import BaseViz logger = logging.getLogger(__name__) class DatabaseAndSchema(NamedTuple): database: str schema: str class SupersetSecurityListWidget(ListWidget): # pylint: disable=too-few-public-methods """ Redeclaring to avoid circular imports """ template = "superset/fab_overrides/list.html" class SupersetRoleListWidget(ListWidget): # pylint: disable=too-few-public-methods """ Role model view from FAB already uses a custom list widget override So we override the override """ template = "superset/fab_overrides/list_role.html" def __init__(self, **kwargs: Any) -> None: kwargs["appbuilder"] = current_app.appbuilder super().__init__(**kwargs) UserModelView.list_widget = SupersetSecurityListWidget RoleModelView.list_widget = SupersetRoleListWidget PermissionViewModelView.list_widget = SupersetSecurityListWidget PermissionModelView.list_widget = SupersetSecurityListWidget # Limiting routes on FAB model views UserModelView.include_route_methods = RouteMethod.CRUD_SET | { RouteMethod.ACTION, RouteMethod.API_READ, RouteMethod.ACTION_POST, "userinfo", } RoleModelView.include_route_methods = RouteMethod.CRUD_SET PermissionViewModelView.include_route_methods = {RouteMethod.LIST} PermissionModelView.include_route_methods = {RouteMethod.LIST} ViewMenuModelView.include_route_methods = {RouteMethod.LIST} RoleModelView.list_columns = ["name"] RoleModelView.edit_columns = ["name", "permissions", "user"] RoleModelView.related_views = [] class SupersetSecurityManager( # pylint: disable=too-many-public-methods SecurityManager ): userstatschartview = None READ_ONLY_MODEL_VIEWS = {"Database", "DruidClusterModelView", "DynamicPlugin"} USER_MODEL_VIEWS = { "UserDBModelView", "UserLDAPModelView", "UserOAuthModelView", "UserOIDModelView", "UserRemoteUserModelView", } GAMMA_READ_ONLY_MODEL_VIEWS = { "Dataset", "DruidColumnInlineView", "DruidDatasourceModelView", "DruidMetricInlineView", "Datasource", } | READ_ONLY_MODEL_VIEWS ADMIN_ONLY_VIEW_MENUS = { "AccessRequestsModelView", "SQL Lab", "Refresh Druid Metadata", "ResetPasswordView", "RoleModelView", "Log", "Security", "Row Level Security", "Row Level Security Filters", "RowLevelSecurityFiltersModelView", } | USER_MODEL_VIEWS ALPHA_ONLY_VIEW_MENUS = { "Manage", "CSS Templates", "Queries", "Import dashboards", "Upload a CSV", } ADMIN_ONLY_PERMISSIONS = { "can_sql_json", # TODO: move can_sql_json to sql_lab role "can_override_role_permissions", "can_sync_druid_source", "can_override_role_permissions", "can_approve", "can_update_role", "all_query_access", "can_grant_guest_token", } READ_ONLY_PERMISSION = { "can_show", "can_list", "can_get", "can_external_metadata", "can_external_metadata_by_name", "can_read", } ALPHA_ONLY_PERMISSIONS = { "muldelete", "all_database_access", "all_datasource_access", } OBJECT_SPEC_PERMISSIONS = { "database_access", "schema_access", "datasource_access", } ACCESSIBLE_PERMS = {"can_userinfo", "resetmypassword"} SQLLAB_PERMISSION_VIEWS = { ("can_csv", "Superset"), ("can_read", "SavedQuery"), ("can_read", "Database"), ("can_sql_json", "Superset"), ("can_sqllab_viz", "Superset"), ("can_sqllab_table_viz", "Superset"), ("can_sqllab", "Superset"), ("menu_access", "SQL Lab"), ("menu_access", "SQL Editor"), ("menu_access", "Saved Queries"), ("menu_access", "Query Search"), } data_access_permissions = ( "database_access", "schema_access", "datasource_access", "all_datasource_access", "all_database_access", "all_query_access", ) guest_user_cls = GuestUser def create_login_manager(self, app: Flask) -> LoginManager: lm = super().create_login_manager(app) lm.request_loader(self.request_loader) return lm def request_loader(self, request: Request) -> Optional[User]: # pylint: disable=import-outside-toplevel from superset.extensions import feature_flag_manager if feature_flag_manager.is_feature_enabled("EMBEDDED_SUPERSET"): return self.get_guest_user_from_request(request) return None def get_schema_perm( # pylint: disable=no-self-use self, database: Union["Database", str], schema: Optional[str] = None ) -> Optional[str]: """ Return the database specific schema permission. :param database: The Superset database or database name :param schema: The Superset schema name :return: The database specific schema permission """ if schema: return f"[{database}].[{schema}]" return None def unpack_database_and_schema( # pylint: disable=no-self-use self, schema_permission: str ) -> DatabaseAndSchema: # [database_name].[schema|table] schema_name = schema_permission.split(".")[1][1:-1] database_name = schema_permission.split(".")[0][1:-1] return DatabaseAndSchema(database_name, schema_name) def can_access(self, permission_name: str, view_name: str) -> bool: """ Return True if the user can access the FAB permission/view, False otherwise. Note this method adds protection from has_access failing from missing permission/view entries. :param permission_name: The FAB permission name :param view_name: The FAB view-menu name :returns: Whether the user can access the FAB permission/view """ user = g.user if user.is_anonymous: return self.is_item_public(permission_name, view_name) return self._has_view_access(user, permission_name, view_name) def can_access_all_queries(self) -> bool: """ Return True if the user can access all SQL Lab queries, False otherwise. :returns: Whether the user can access all queries """ return self.can_access("all_query_access", "all_query_access") def can_access_all_datasources(self) -> bool: """ Return True if the user can fully access all the Superset datasources, False otherwise. :returns: Whether the user can fully access all Superset datasources """ return self.can_access("all_datasource_access", "all_datasource_access") def can_access_all_databases(self) -> bool: """ Return True if the user can fully access all the Superset databases, False otherwise. :returns: Whether the user can fully access all Superset databases """ return self.can_access("all_database_access", "all_database_access") def can_access_database(self, database: Union["Database", "DruidCluster"]) -> bool: """ Return True if the user can fully access the Superset database, False otherwise. Note for Druid the database is akin to the Druid cluster. :param database: The Superset database :returns: Whether the user can fully access the Superset database """ return ( self.can_access_all_datasources() or self.can_access_all_databases() or self.can_access("database_access", database.perm) # type: ignore ) def can_access_schema(self, datasource: "BaseDatasource") -> bool: """ Return True if the user can fully access the schema associated with the Superset datasource, False otherwise. Note for Druid datasources the database and schema are akin to the Druid cluster and datasource name prefix respectively, i.e., [schema.]datasource. :param datasource: The Superset datasource :returns: Whether the user can fully access the datasource's schema """ return ( self.can_access_all_datasources() or self.can_access_database(datasource.database) or self.can_access("schema_access", datasource.schema_perm or "") ) def can_access_datasource(self, datasource: "BaseDatasource") -> bool: """ Return True if the user can fully access of the Superset datasource, False otherwise. :param datasource: The Superset datasource :returns: Whether the user can fully access the Superset datasource """ try: self.raise_for_access(datasource=datasource) except SupersetSecurityException: return False return True @staticmethod def get_datasource_access_error_msg(datasource: "BaseDatasource") -> str: """ Return the error message for the denied Superset datasource. :param datasource: The denied Superset datasource :returns: The error message """ return f"""This endpoint requires the datasource {datasource.name}, database or `all_datasource_access` permission""" @staticmethod def get_datasource_access_link( # pylint: disable=unused-argument datasource: "BaseDatasource", ) -> Optional[str]: """ Return the link for the denied Superset datasource. :param datasource: The denied Superset datasource :returns: The access URL """ return current_app.config.get("PERMISSION_INSTRUCTIONS_LINK") def get_datasource_access_error_object( # pylint: disable=invalid-name self, datasource: "BaseDatasource" ) -> SupersetError: """ Return the error object for the denied Superset datasource. :param datasource: The denied Superset datasource :returns: The error object """ return SupersetError( error_type=SupersetErrorType.DATASOURCE_SECURITY_ACCESS_ERROR, message=self.get_datasource_access_error_msg(datasource), level=ErrorLevel.ERROR, extra={ "link": self.get_datasource_access_link(datasource), "datasource": datasource.name, }, ) def get_table_access_error_msg( # pylint: disable=no-self-use self, tables: Set["Table"] ) -> str: """ Return the error message for the denied SQL tables. :param tables: The set of denied SQL tables :returns: The error message """ quoted_tables = [f"`{table}`" for table in tables] return f"""You need access to the following tables: {", ".join(quoted_tables)}, `all_database_access` or `all_datasource_access` permission""" def get_table_access_error_object(self, tables: Set["Table"]) -> SupersetError: """ Return the error object for the denied SQL tables. :param tables: The set of denied SQL tables :returns: The error object """ return SupersetError( error_type=SupersetErrorType.TABLE_SECURITY_ACCESS_ERROR, message=self.get_table_access_error_msg(tables), level=ErrorLevel.ERROR, extra={ "link": self.get_table_access_link(tables), "tables": [str(table) for table in tables], }, ) def get_table_access_link( # pylint: disable=unused-argument,no-self-use self, tables: Set["Table"] ) -> Optional[str]: """ Return the access link for the denied SQL tables. :param tables: The set of denied SQL tables :returns: The access URL """ return current_app.config.get("PERMISSION_INSTRUCTIONS_LINK") def get_user_datasources(self) -> List["BaseDatasource"]: """ Collect datasources which the user has explicit permissions to. :returns: The list of datasources """ user_perms = self.user_view_menu_names("datasource_access") schema_perms = self.user_view_menu_names("schema_access") user_datasources = set() for datasource_class in ConnectorRegistry.sources.values(): user_datasources.update( self.get_session.query(datasource_class) .filter( or_( datasource_class.perm.in_(user_perms), datasource_class.schema_perm.in_(schema_perms), ) ) .all() ) # group all datasources by database all_datasources = ConnectorRegistry.get_all_datasources(self.get_session) datasources_by_database: Dict["Database", Set["BaseDatasource"]] = defaultdict( set ) for datasource in all_datasources: datasources_by_database[datasource.database].add(datasource) # add datasources with implicit permission (eg, database access) for database, datasources in datasources_by_database.items(): if self.can_access_database(database): user_datasources.update(datasources) return list(user_datasources) def can_access_table(self, database: "Database", table: "Table") -> bool: """ Return True if the user can access the SQL table, False otherwise. :param database: The SQL database :param table: The SQL table :returns: Whether the user can access the SQL table """ try: self.raise_for_access(database=database, table=table) except SupersetSecurityException: return False return True def user_view_menu_names(self, permission_name: str) -> Set[str]: base_query = ( self.get_session.query(self.viewmenu_model.name) .join(self.permissionview_model) .join(self.permission_model) .join(assoc_permissionview_role) .join(self.role_model) ) if not g.user.is_anonymous: # filter by user id view_menu_names = ( base_query.join(assoc_user_role) .join(self.user_model) .filter(self.user_model.id == g.user.get_id()) .filter(self.permission_model.name == permission_name) ).all() return {s.name for s in view_menu_names} # Properly treat anonymous user public_role = self.get_public_role() if public_role: # filter by public role view_menu_names = ( base_query.filter(self.role_model.id == public_role.id).filter( self.permission_model.name == permission_name ) ).all() return {s.name for s in view_menu_names} return set() def get_schemas_accessible_by_user( self, database: "Database", schemas: List[str], hierarchical: bool = True ) -> List[str]: """ Return the list of SQL schemas accessible by the user. :param database: The SQL database :param schemas: The list of eligible SQL schemas :param hierarchical: Whether to check using the hierarchical permission logic :returns: The list of accessible SQL schemas """ # pylint: disable=import-outside-toplevel from superset.connectors.sqla.models import SqlaTable if hierarchical and self.can_access_database(database): return schemas # schema_access accessible_schemas = { self.unpack_database_and_schema(s).schema for s in self.user_view_menu_names("schema_access") if s.startswith(f"[{database}].") } # datasource_access perms = self.user_view_menu_names("datasource_access") if perms: tables = ( self.get_session.query(SqlaTable.schema) .filter(SqlaTable.database_id == database.id) .filter(SqlaTable.schema.isnot(None)) .filter(SqlaTable.schema != "") .filter(or_(SqlaTable.perm.in_(perms))) .distinct() ) accessible_schemas.update([table.schema for table in tables]) return [s for s in schemas if s in accessible_schemas] def get_datasources_accessible_by_user( # pylint: disable=invalid-name self, database: "Database", datasource_names: List[DatasourceName], schema: Optional[str] = None, ) -> List[DatasourceName]: """ Return the list of SQL tables accessible by the user. :param database: The SQL database :param datasource_names: The list of eligible SQL tables w/ schema :param schema: The fallback SQL schema if not present in the table name :returns: The list of accessible SQL tables w/ schema """ if self.can_access_database(database): return datasource_names if schema: schema_perm = self.get_schema_perm(database, schema) if schema_perm and self.can_access("schema_access", schema_perm): return datasource_names user_perms = self.user_view_menu_names("datasource_access") schema_perms = self.user_view_menu_names("schema_access") user_datasources = ConnectorRegistry.query_datasources_by_permissions( self.get_session, database, user_perms, schema_perms ) if schema: names = {d.table_name for d in user_datasources if d.schema == schema} return [d for d in datasource_names if d.table in names] full_names = {d.full_name for d in user_datasources} return [d for d in datasource_names if f"[{database}].[{d}]" in full_names] def merge_perm(self, permission_name: str, view_menu_name: str) -> None: """ Add the FAB permission/view-menu. :param permission_name: The FAB permission name :param view_menu_names: The FAB view-menu name :see: SecurityManager.add_permission_view_menu """ logger.warning( "This method 'merge_perm' is deprecated use add_permission_view_menu" ) self.add_permission_view_menu(permission_name, view_menu_name) def _is_user_defined_permission(self, perm: Model) -> bool: """ Return True if the FAB permission is user defined, False otherwise. :param perm: The FAB permission :returns: Whether the FAB permission is user defined """ return perm.permission.name in self.OBJECT_SPEC_PERMISSIONS def create_custom_permissions(self) -> None: """ Create custom FAB permissions. """ self.add_permission_view_menu("all_datasource_access", "all_datasource_access") self.add_permission_view_menu("all_database_access", "all_database_access") self.add_permission_view_menu("all_query_access", "all_query_access") self.add_permission_view_menu("can_share_dashboard", "Superset") self.add_permission_view_menu("can_share_chart", "Superset") def create_missing_perms(self) -> None: """ Creates missing FAB permissions for datasources, schemas and metrics. """ # pylint: disable=import-outside-toplevel from superset.models import core as models logger.info("Fetching a set of all perms to lookup which ones are missing") all_pvs = set() for pv in self.get_session.query(self.permissionview_model).all(): if pv.permission and pv.view_menu: all_pvs.add((pv.permission.name, pv.view_menu.name)) def merge_pv(view_menu: str, perm: str) -> None: """Create permission view menu only if it doesn't exist""" if view_menu and perm and (view_menu, perm) not in all_pvs: self.add_permission_view_menu(view_menu, perm) logger.info("Creating missing datasource permissions.") datasources = ConnectorRegistry.get_all_datasources(self.get_session) for datasource in datasources: merge_pv("datasource_access", datasource.get_perm()) merge_pv("schema_access", datasource.get_schema_perm()) logger.info("Creating missing database permissions.") databases = self.get_session.query(models.Database).all() for database in databases: merge_pv("database_access", database.perm) def clean_perms(self) -> None: """ Clean up the FAB faulty permissions. """ logger.info("Cleaning faulty perms") sesh = self.get_session pvms = sesh.query(PermissionView).filter( or_( PermissionView.permission # pylint: disable=singleton-comparison == None, PermissionView.view_menu # pylint: disable=singleton-comparison == None, ) ) deleted_count = pvms.delete() sesh.commit() if deleted_count: logger.info("Deleted %i faulty permissions", deleted_count) def sync_role_definitions(self) -> None: """ Initialize the Superset application with security roles and such. """ logger.info("Syncing role definition") self.create_custom_permissions() # Creating default roles self.set_role("Admin", self._is_admin_pvm) self.set_role("Alpha", self._is_alpha_pvm) self.set_role("Gamma", self._is_gamma_pvm) self.set_role("granter", self._is_granter_pvm) self.set_role("sql_lab", self._is_sql_lab_pvm) # Configure public role if current_app.config["PUBLIC_ROLE_LIKE"]: self.copy_role( current_app.config["PUBLIC_ROLE_LIKE"], self.auth_role_public, merge=True, ) if current_app.config.get("PUBLIC_ROLE_LIKE_GAMMA", False): logger.warning( "The config `PUBLIC_ROLE_LIKE_GAMMA` is deprecated and will be removed " "in Superset 1.0. Please use `PUBLIC_ROLE_LIKE` instead." ) self.copy_role("Gamma", self.auth_role_public, merge=True) self.create_missing_perms() # commit role and view menu updates self.get_session.commit() self.clean_perms() def _get_pvms_from_builtin_role(self, role_name: str) -> List[PermissionView]: """ Gets a list of model PermissionView permissions infered from a builtin role definition """ role_from_permissions_names = self.builtin_roles.get(role_name, []) all_pvms = self.get_session.query(PermissionView).all() role_from_permissions = [] for pvm_regex in role_from_permissions_names: view_name_regex = pvm_regex[0] permission_name_regex = pvm_regex[1] for pvm in all_pvms: if re.match(view_name_regex, pvm.view_menu.name) and re.match( permission_name_regex, pvm.permission.name ): if pvm not in role_from_permissions: role_from_permissions.append(pvm) return role_from_permissions def find_roles_by_id(self, role_ids: List[int]) -> List[Role]: """ Find a List of models by a list of ids, if defined applies `base_filter` """ query = self.get_session.query(Role).filter(Role.id.in_(role_ids)) return query.all() def copy_role( self, role_from_name: str, role_to_name: str, merge: bool = True ) -> None: """ Copies permissions from a role to another. Note: Supports regex defined builtin roles :param role_from_name: The FAB role name from where the permissions are taken :param role_to_name: The FAB role name from where the permissions are copied to :param merge: If merge is true, keep data access permissions if they already exist on the target role """ logger.info("Copy/Merge %s to %s", role_from_name, role_to_name) # If it's a builtin role extract permissions from it if role_from_name in self.builtin_roles: role_from_permissions = self._get_pvms_from_builtin_role(role_from_name) else: role_from_permissions = list(self.find_role(role_from_name).permissions) role_to = self.add_role(role_to_name) # If merge, recover existing data access permissions if merge: for permission_view in role_to.permissions: if ( permission_view not in role_from_permissions and permission_view.permission.name in self.data_access_permissions ): role_from_permissions.append(permission_view) role_to.permissions = role_from_permissions self.get_session.merge(role_to) self.get_session.commit() def set_role( self, role_name: str, pvm_check: Callable[[PermissionView], bool] ) -> None: """ Set the FAB permission/views for the role. :param role_name: The FAB role name :param pvm_check: The FAB permission/view check """ logger.info("Syncing %s perms", role_name) pvms = self.get_session.query(PermissionView).all() pvms = [p for p in pvms if p.permission and p.view_menu] role = self.add_role(role_name) role_pvms = [ permission_view for permission_view in pvms if pvm_check(permission_view) ] role.permissions = role_pvms self.get_session.merge(role) self.get_session.commit() def _is_admin_only(self, pvm: PermissionView) -> bool: """ Return True if the FAB permission/view is accessible to only Admin users, False otherwise. Note readonly operations on read only model views are allowed only for admins. :param pvm: The FAB permission/view :returns: Whether the FAB object is accessible to only Admin users """ if ( pvm.view_menu.name in self.READ_ONLY_MODEL_VIEWS and pvm.permission.name not in self.READ_ONLY_PERMISSION ): return True return ( pvm.view_menu.name in self.ADMIN_ONLY_VIEW_MENUS or pvm.permission.name in self.ADMIN_ONLY_PERMISSIONS ) def _is_alpha_only(self, pvm: PermissionView) -> bool: """ Return True if the FAB permission/view is accessible to only Alpha users, False otherwise. :param pvm: The FAB permission/view :returns: Whether the FAB object is accessible to only Alpha users """ if ( pvm.view_menu.name in self.GAMMA_READ_ONLY_MODEL_VIEWS and pvm.permission.name not in self.READ_ONLY_PERMISSION ): return True return ( pvm.view_menu.name in self.ALPHA_ONLY_VIEW_MENUS or pvm.permission.name in self.ALPHA_ONLY_PERMISSIONS ) def _is_accessible_to_all(self, pvm: PermissionView) -> bool: """ Return True if the FAB permission/view is accessible to all, False otherwise. :param pvm: The FAB permission/view :returns: Whether the FAB object is accessible to all users """ return pvm.permission.name in self.ACCESSIBLE_PERMS def _is_admin_pvm(self, pvm: PermissionView) -> bool: """ Return True if the FAB permission/view is Admin user related, False otherwise. :param pvm: The FAB permission/view :returns: Whether the FAB object is Admin related """ return not self._is_user_defined_permission(pvm) def _is_alpha_pvm(self, pvm: PermissionView) -> bool: """ Return True if the FAB permission/view is Alpha user related, False otherwise. :param pvm: The FAB permission/view :returns: Whether the FAB object is Alpha related """ return not ( self._is_user_defined_permission(pvm) or self._is_admin_only(pvm) ) or self._is_accessible_to_all(pvm) def _is_gamma_pvm(self, pvm: PermissionView) -> bool: """ Return True if the FAB permission/view is Gamma user related, False otherwise. :param pvm: The FAB permission/view :returns: Whether the FAB object is Gamma related """ return not ( self._is_user_defined_permission(pvm) or self._is_admin_only(pvm) or self._is_alpha_only(pvm) ) or self._is_accessible_to_all(pvm) def _is_sql_lab_pvm(self, pvm: PermissionView) -> bool: """ Return True if the FAB permission/view is SQL Lab related, False otherwise. :param pvm: The FAB permission/view :returns: Whether the FAB object is SQL Lab related """ return (pvm.permission.name, pvm.view_menu.name) in self.SQLLAB_PERMISSION_VIEWS def _is_granter_pvm( # pylint: disable=no-self-use self, pvm: PermissionView ) -> bool: """ Return True if the user can grant the FAB permission/view, False otherwise. :param pvm: The FAB permission/view :returns: Whether the user can grant the FAB permission/view """ return pvm.permission.name in {"can_override_role_permissions", "can_approve"} def set_perm( # pylint: disable=unused-argument self, mapper: Mapper, connection: Connection, target: "BaseDatasource" ) -> None: """ Set the datasource permissions. :param mapper: The table mapper :param connection: The DB-API connection :param target: The mapped instance being persisted """ link_table = target.__table__ if target.perm != target.get_perm(): connection.execute( link_table.update() .where(link_table.c.id == target.id) .values(perm=target.get_perm()) ) target.perm = target.get_perm() if ( hasattr(target, "schema_perm") and target.schema_perm != target.get_schema_perm() ): connection.execute( link_table.update() .where(link_table.c.id == target.id) .values(schema_perm=target.get_schema_perm()) ) target.schema_perm = target.get_schema_perm() pvm_names = [] if target.__tablename__ in {"dbs", "clusters"}: pvm_names.append(("database_access", target.get_perm())) else: pvm_names.append(("datasource_access", target.get_perm())) if target.schema: pvm_names.append(("schema_access", target.get_schema_perm())) # TODO(bogdan): modify slice permissions as well. for permission_name, view_menu_name in pvm_names: permission = self.find_permission(permission_name) view_menu = self.find_view_menu(view_menu_name) pv = None if not permission: permission_table = ( self.permission_model.__table__ # pylint: disable=no-member ) connection.execute( permission_table.insert().values(name=permission_name) ) permission = self.find_permission(permission_name) if not view_menu: view_menu_table = ( self.viewmenu_model.__table__ # pylint: disable=no-member ) connection.execute(view_menu_table.insert().values(name=view_menu_name)) view_menu = self.find_view_menu(view_menu_name) if permission and view_menu: pv = ( self.get_session.query(self.permissionview_model) .filter_by(permission=permission, view_menu=view_menu) .first() ) if not pv and permission and view_menu: permission_view_table = ( self.permissionview_model.__table__ # pylint: disable=no-member ) connection.execute( permission_view_table.insert().values( permission_id=permission.id, view_menu_id=view_menu.id ) ) def raise_for_access( # pylint: disable=too-many-arguments,too-many-locals self, database: Optional["Database"] = None, datasource: Optional["BaseDatasource"] = None, query: Optional["Query"] = None, query_context: Optional["QueryContext"] = None, table: Optional["Table"] = None, viz: Optional["BaseViz"] = None, ) -> None: """ Raise an exception if the user cannot access the resource. :param database: The Superset database :param datasource: The Superset datasource :param query: The SQL Lab query :param query_context: The query context :param table: The Superset table (requires database) :param viz: The visualization :raises SupersetSecurityException: If the user cannot access the resource """ # pylint: disable=import-outside-toplevel from superset.connectors.sqla.models import SqlaTable from superset.extensions import feature_flag_manager from superset.sql_parse import Table if database and table or query: if query: database = query.database database = cast("Database", database) if self.can_access_database(database): return if query: tables = { Table(table_.table, table_.schema or query.schema) for table_ in sql_parse.ParsedQuery(query.sql).tables } elif table: tables = {table} denied = set() for table_ in tables: schema_perm = self.get_schema_perm(database, schema=table_.schema) if not (schema_perm and self.can_access("schema_access", schema_perm)): datasources = SqlaTable.query_datasources_by_name( self.get_session, database, table_.table, schema=table_.schema ) # Access to any datasource is suffice. for datasource_ in datasources: if self.can_access("datasource_access", datasource_.perm): break else: denied.add(table_) if denied: raise SupersetSecurityException( self.get_table_access_error_object(denied) ) if datasource or query_context or viz: if query_context: datasource = query_context.datasource elif viz: datasource = viz.datasource assert datasource should_check_dashboard_access = ( feature_flag_manager.is_feature_enabled("DASHBOARD_RBAC") or self.is_guest_user() ) if not ( self.can_access_schema(datasource) or self.can_access("datasource_access", datasource.perm or "") or ( should_check_dashboard_access and self.can_access_based_on_dashboard(datasource) ) ): raise SupersetSecurityException( self.get_datasource_access_error_object(datasource) ) def get_user_by_username( self, username: str, session: Session = None ) -> Optional[User]: """ Retrieves a user by it's username case sensitive. Optional session parameter utility method normally useful for celery tasks where the session need to be scoped """ session = session or self.get_session return ( session.query(self.user_model) .filter(self.user_model.username == username) .one_or_none() ) def get_anonymous_user(self) -> User: # pylint: disable=no-self-use return AnonymousUserMixin() def get_user_roles(self, user: Optional[User] = None) -> List[Role]: if not user: user = g.user if user.is_anonymous: public_role = current_app.config.get("AUTH_ROLE_PUBLIC") return [self.get_public_role()] if public_role else [] return user.roles def get_guest_rls_filters( self, dataset: "BaseDatasource" ) -> List[GuestTokenRlsRule]: """ Retrieves the row level security filters for the current user and the dataset, if the user is authenticated with a guest token. :param dataset: The dataset to check against :return: A list of filters """ guest_user = self.get_current_guest_user_if_guest() if guest_user: return [ rule for rule in guest_user.rls if not rule.get("dataset") or str(rule.get("dataset")) == str(dataset.id) ] return [] def get_rls_filters(self, table: "BaseDatasource") -> List[SqlaQuery]: """ Retrieves the appropriate row level security filters for the current user and the passed table. :param table: The table to check against :returns: A list of filters """ if hasattr(g, "user"): # pylint: disable=import-outside-toplevel from superset.connectors.sqla.models import ( RLSFilterRoles, RLSFilterTables, RowLevelSecurityFilter, ) user_roles = [role.id for role in self.get_user_roles()] regular_filter_roles = ( self.get_session.query(RLSFilterRoles.c.rls_filter_id) .join(RowLevelSecurityFilter) .filter( RowLevelSecurityFilter.filter_type == RowLevelSecurityFilterType.REGULAR ) .filter(RLSFilterRoles.c.role_id.in_(user_roles)) .subquery() ) base_filter_roles = ( self.get_session.query(RLSFilterRoles.c.rls_filter_id) .join(RowLevelSecurityFilter) .filter( RowLevelSecurityFilter.filter_type == RowLevelSecurityFilterType.BASE ) .filter(RLSFilterRoles.c.role_id.in_(user_roles)) .subquery() ) filter_tables = ( self.get_session.query(RLSFilterTables.c.rls_filter_id) .filter(RLSFilterTables.c.table_id == table.id) .subquery() ) query = ( self.get_session.query( RowLevelSecurityFilter.id, RowLevelSecurityFilter.group_key, RowLevelSecurityFilter.clause, ) .filter(RowLevelSecurityFilter.id.in_(filter_tables)) .filter( or_( and_( RowLevelSecurityFilter.filter_type == RowLevelSecurityFilterType.REGULAR, RowLevelSecurityFilter.id.in_(regular_filter_roles), ), and_( RowLevelSecurityFilter.filter_type == RowLevelSecurityFilterType.BASE, RowLevelSecurityFilter.id.notin_(base_filter_roles), ), ) ) ) return query.all() return [] def get_rls_ids(self, table: "BaseDatasource") -> List[int]: """ Retrieves the appropriate row level security filters IDs for the current user and the passed table. :param table: The table to check against :returns: A list of IDs """ ids = [f.id for f in self.get_rls_filters(table)] ids.sort() # Combinations rather than permutations return ids def get_guest_rls_filters_str(self, table: "BaseDatasource") -> List[str]: return [f.get("clause", "") for f in self.get_guest_rls_filters(table)] def get_rls_cache_key(self, datasource: "BaseDatasource") -> List[str]: # pylint: disable=import-outside-toplevel from superset import is_feature_enabled rls_ids = [] if is_feature_enabled("ROW_LEVEL_SECURITY") and datasource.is_rls_supported: rls_ids = self.get_rls_ids(datasource) rls_str = [str(rls_id) for rls_id in rls_ids] guest_rls = self.get_guest_rls_filters_str(datasource) return guest_rls + rls_str @staticmethod def raise_for_user_activity_access(user_id: int) -> None: user = g.user if g.user and g.user.get_id() else None if not user or ( not current_app.config["ENABLE_BROAD_ACTIVITY_ACCESS"] and user_id != user.id ): raise SupersetSecurityException( SupersetError( error_type=SupersetErrorType.USER_ACTIVITY_SECURITY_ACCESS_ERROR, message="Access to user's activity data is restricted", level=ErrorLevel.ERROR, ) ) def raise_for_dashboard_access(self, dashboard: "Dashboard") -> None: """ Raise an exception if the user cannot access the dashboard. This does not check for the required role/permission pairs, it only concerns itself with entity relationships. :param dashboard: Dashboard the user wants access to :raises DashboardAccessDeniedError: If the user cannot access the resource """ # pylint: disable=import-outside-toplevel from superset import is_feature_enabled from superset.dashboards.commands.exceptions import DashboardAccessDeniedError from superset.views.base import is_user_admin from superset.views.utils import is_owner def has_rbac_access() -> bool: return (not is_feature_enabled("DASHBOARD_RBAC")) or any( dashboard_role.id in [user_role.id for user_role in self.get_user_roles()] for dashboard_role in dashboard.roles ) if self.is_guest_user(): can_access = self.has_guest_access( GuestTokenResourceType.DASHBOARD, dashboard.id ) else: can_access = ( is_user_admin() or is_owner(dashboard, g.user) or (dashboard.published and has_rbac_access()) or (not dashboard.published and not dashboard.roles) ) if not can_access: raise DashboardAccessDeniedError() @staticmethod def can_access_based_on_dashboard(datasource: "BaseDatasource") -> bool: # pylint: disable=import-outside-toplevel from superset import db from superset.dashboards.filters import DashboardAccessFilter from superset.models.dashboard import Dashboard from superset.models.slice import Slice datasource_class = type(datasource) query = ( db.session.query(datasource_class) .join(Slice.table) .filter(datasource_class.id == datasource.id) ) query = DashboardAccessFilter("id", SQLAInterface(Dashboard, db.session)).apply( query, None ) exists = db.session.query(query.exists()).scalar() return exists @staticmethod def _get_current_epoch_time() -> float: """ This is used so the tests can mock time """ return time.time() @staticmethod def _get_guest_token_jwt_audience() -> str: audience = current_app.config["GUEST_TOKEN_JWT_AUDIENCE"] or get_url_host() if callable(audience): audience = audience() return audience def create_guest_access_token( self, user: GuestTokenUser, resources: GuestTokenResources, rls: List[GuestTokenRlsRule], ) -> bytes: secret = current_app.config["GUEST_TOKEN_JWT_SECRET"] algo = current_app.config["GUEST_TOKEN_JWT_ALGO"] exp_seconds = current_app.config["GUEST_TOKEN_JWT_EXP_SECONDS"] audience = self._get_guest_token_jwt_audience() # calculate expiration time now = self._get_current_epoch_time() exp = now + exp_seconds claims = { "user": user, "resources": resources, "rls_rules": rls, # standard jwt claims: "iat": now, # issued at "exp": exp, # expiration time "aud": audience, "type": "guest", } token = jwt.encode(claims, secret, algorithm=algo) return token def get_guest_user_from_request(self, req: Request) -> Optional[GuestUser]: """ If there is a guest token in the request (used for embedded), parses the token and returns the guest user. This is meant to be used as a request loader for the LoginManager. The LoginManager will only call this if an active session cannot be found. :return: A guest user object """ raw_token = req.headers.get(current_app.config["GUEST_TOKEN_HEADER_NAME"]) if raw_token is None: return None try: token = self.parse_jwt_guest_token(raw_token) if token.get("user") is None: raise ValueError("Guest token does not contain a user claim") if token.get("resources") is None: raise ValueError("Guest token does not contain a resources claim") if token.get("rls_rules") is None: raise ValueError("Guest token does not contain an rls_rules claim") if token.get("type") != "guest": raise ValueError("This is not a guest token.") except Exception: # pylint: disable=broad-except # The login manager will handle sending 401s. # We don't need to send a special error message. logger.warning("Invalid guest token", exc_info=True) return None else: return self.get_guest_user_from_token(cast(GuestToken, token)) def get_guest_user_from_token(self, token: GuestToken) -> GuestUser: return self.guest_user_cls( token=token, roles=[self.find_role(current_app.config["GUEST_ROLE_NAME"])], ) def parse_jwt_guest_token(self, raw_token: str) -> Dict[str, Any]: """ Parses a guest token. Raises an error if the jwt fails standard claims checks. :param raw_token: the token gotten from the request :return: the same token that was passed in, tested but unchanged """ secret = current_app.config["GUEST_TOKEN_JWT_SECRET"] algo = current_app.config["GUEST_TOKEN_JWT_ALGO"] audience = self._get_guest_token_jwt_audience() return jwt.decode(raw_token, secret, algorithms=[algo], audience=audience) @staticmethod def is_guest_user(user: Optional[Any] = None) -> bool: # pylint: disable=import-outside-toplevel from superset import is_feature_enabled if not is_feature_enabled("EMBEDDED_SUPERSET"): return False if not user: user = g.user return hasattr(user, "is_guest_user") and user.is_guest_user def get_current_guest_user_if_guest(self) -> Optional[GuestUser]: if self.is_guest_user(): return g.user return None def has_guest_access( self, resource_type: GuestTokenResourceType, resource_id: Union[str, int] ) -> bool: user = self.get_current_guest_user_if_guest() if not user: return False strid = str(resource_id) for resource in user.resources: if resource["type"] == resource_type.value and str(resource["id"]) == strid: return True return False