superset/sql_lab.py - superset - Git at Google

 # 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.
 import dataclasses
 import logging
 import uuid
 from contextlib import closing
 from datetime import datetime
 from sys import getsizeof
 from typing import Any, cast, Optional, Union

 import backoff
 import msgpack
 from celery.exceptions import SoftTimeLimitExceeded
 from flask_babel import gettext as __

 from superset import (
     app,
     db,
     is_feature_enabled,
     results_backend,
     results_backend_use_msgpack,
     security_manager,
 )
 from superset.common.db_query_status import QueryStatus
 from superset.constants import QUERY_CANCEL_KEY, QUERY_EARLY_CANCEL_KEY
 from superset.dataframe import df_to_records
 from superset.db_engine_specs import BaseEngineSpec
 from superset.errors import ErrorLevel, SupersetError, SupersetErrorType
 from superset.exceptions import (
     OAuth2RedirectError,
     SupersetErrorException,
     SupersetErrorsException,
 )
 from superset.extensions import celery_app, event_logger
 from superset.models.core import Database
 from superset.models.sql_lab import Query
 from superset.result_set import SupersetResultSet
 from superset.sql_parse import (
     CtasMethod,
     insert_rls_as_subquery,
     insert_rls_in_predicate,
     ParsedQuery,
     Table,
 )
 from superset.sqllab.limiting_factor import LimitingFactor
 from superset.sqllab.utils import write_ipc_buffer
 from superset.utils import json as json_utils
 from superset.utils.core import (
     override_user,
     QuerySource,
     zlib_compress,
 )
 from superset.utils.dates import now_as_float
 from superset.utils.decorators import stats_timing

 config = app.config
 stats_logger = config["STATS_LOGGER"]
 SQLLAB_TIMEOUT = config["SQLLAB_ASYNC_TIME_LIMIT_SEC"]
 SQLLAB_HARD_TIMEOUT = SQLLAB_TIMEOUT + 60
 SQL_MAX_ROW = config["SQL_MAX_ROW"]
 SQLLAB_CTAS_NO_LIMIT = config["SQLLAB_CTAS_NO_LIMIT"]
 log_query = config["QUERY_LOGGER"]
 logger = logging.getLogger(__name__)


 class SqlLabException(Exception):
     pass


 class SqlLabSecurityException(SqlLabException):
     pass


 class SqlLabQueryStoppedException(SqlLabException):
     pass


 def handle_query_error(
     ex: Exception,
     query: Query,
     payload: Optional[dict[str, Any]] = None,
     prefix_message: str = "",
 ) -> dict[str, Any]:
     """Local method handling error while processing the SQL"""
     payload = payload or {}
     msg = f"{prefix_message} {str(ex)}".strip()
     query.error_message = msg
     query.tmp_table_name = None
     query.status = QueryStatus.FAILED
     # TODO: re-enable this after updating the frontend to properly display timeout status
     # if query.status != QueryStatus.TIMED_OUT:
     #   query.status = QueryStatus.FAILED
     if not query.end_time:
         query.end_time = now_as_float()

     # extract DB-specific errors (invalid column, eg)
     if isinstance(ex, SupersetErrorException):
         errors = [ex.error]
     elif isinstance(ex, SupersetErrorsException):
         errors = ex.errors
     else:
         errors = query.database.db_engine_spec.extract_errors(str(ex))

     errors_payload = [dataclasses.asdict(error) for error in errors]
     if errors:
         query.set_extra_json_key("errors", errors_payload)

     db.session.commit()
     payload.update({"status": query.status, "error": msg, "errors": errors_payload})
     if troubleshooting_link := config["TROUBLESHOOTING_LINK"]:
         payload["link"] = troubleshooting_link
     return payload


 def get_query_backoff_handler(details: dict[Any, Any]) -> None:
     query_id = details["kwargs"]["query_id"]
     logger.error(
         "Query with id `%s` could not be retrieved", str(query_id), exc_info=True
     )
     stats_logger.incr(f"error_attempting_orm_query_{details['tries'] - 1}")
     logger.error(
         "Query %s: Sleeping for a sec before retrying...", str(query_id), exc_info=True
     )


 def get_query_giveup_handler(_: Any) -> None:
     stats_logger.incr("error_failed_at_getting_orm_query")


 @backoff.on_exception(
     backoff.constant,
     SqlLabException,
     interval=1,
     on_backoff=get_query_backoff_handler,
     on_giveup=get_query_giveup_handler,
     max_tries=5,
 )
 def get_query(query_id: int) -> Query:
     """attempts to get the query and retry if it cannot"""
     try:
         return db.session.query(Query).filter_by(id=query_id).one()
     except Exception as ex:
         raise SqlLabException("Failed at getting query") from ex


 @celery_app.task(
     name="sql_lab.get_sql_results",
     time_limit=SQLLAB_HARD_TIMEOUT,
     soft_time_limit=SQLLAB_TIMEOUT,
 )
 def get_sql_results(  # pylint: disable=too-many-arguments
     query_id: int,
     rendered_query: str,
     return_results: bool = True,
     store_results: bool = False,
     username: Optional[str] = None,
     start_time: Optional[float] = None,
     expand_data: bool = False,
     log_params: Optional[dict[str, Any]] = None,
 ) -> Optional[dict[str, Any]]:
     """Executes the sql query returns the results."""
     with override_user(security_manager.find_user(username)):
         try:
             return execute_sql_statements(
                 query_id,
                 rendered_query,
                 return_results,
                 store_results,
                 start_time=start_time,
                 expand_data=expand_data,
                 log_params=log_params,
             )
         except Exception as ex:  # pylint: disable=broad-except
             logger.debug("Query %d: %s", query_id, ex)
             stats_logger.incr("error_sqllab_unhandled")
             query = get_query(query_id)
             return handle_query_error(ex, query)


 def execute_sql_statement(  # pylint: disable=too-many-statements
     sql_statement: str,
     query: Query,
     cursor: Any,
     log_params: Optional[dict[str, Any]],
     apply_ctas: bool = False,
 ) -> SupersetResultSet:
     """Executes a single SQL statement"""
     database: Database = query.database
     db_engine_spec = database.db_engine_spec

     parsed_query = ParsedQuery(sql_statement, engine=db_engine_spec.engine)
     if is_feature_enabled("RLS_IN_SQLLAB"):
         # There are two ways to insert RLS: either replacing the table with a subquery
         # that has the RLS, or appending the RLS to the ``WHERE`` clause. The former is
         # safer, but not supported in all databases.
         insert_rls = (
             insert_rls_as_subquery
             if database.db_engine_spec.allows_subqueries
             and database.db_engine_spec.allows_alias_in_select
             else insert_rls_in_predicate
         )

         # Insert any applicable RLS predicates
         parsed_query = ParsedQuery(
             str(
                 insert_rls(
                     parsed_query._parsed[0],  # pylint: disable=protected-access
                     database.id,
                     query.schema,
                 )
             ),
             engine=db_engine_spec.engine,
         )

     sql = parsed_query.stripped()

     # This is a test to see if the query is being
     # limited by either the dropdown or the sql.
     # We are testing to see if more rows exist than the limit.
     increased_limit = None if query.limit is None else query.limit + 1

     if not db_engine_spec.is_readonly_query(parsed_query) and not database.allow_dml:
         raise SupersetErrorException(
             SupersetError(
                 message=__("Only SELECT statements are allowed against this database."),
                 error_type=SupersetErrorType.DML_NOT_ALLOWED_ERROR,
                 level=ErrorLevel.ERROR,
             )
         )
     if apply_ctas:
         if not query.tmp_table_name:
             start_dttm = datetime.fromtimestamp(query.start_time)
             query.tmp_table_name = (
                 f'tmp_{query.user_id}_table_{start_dttm.strftime("%Y_%m_%d_%H_%M_%S")}'
             )
         sql = parsed_query.as_create_table(
             query.tmp_table_name,
             schema_name=query.tmp_schema_name,
             method=query.ctas_method,
         )
         query.select_as_cta_used = True

     # Do not apply limit to the CTA queries when SQLLAB_CTAS_NO_LIMIT is set to true
     if db_engine_spec.is_select_query(parsed_query) and not (
         query.select_as_cta_used and SQLLAB_CTAS_NO_LIMIT
     ):
         if SQL_MAX_ROW and (not query.limit or query.limit > SQL_MAX_ROW):
             query.limit = SQL_MAX_ROW
         sql = apply_limit_if_exists(database, increased_limit, query, sql)

     # Hook to allow environment-specific mutation (usually comments) to the SQL
     sql = database.mutate_sql_based_on_config(sql)
     try:
         query.executed_sql = sql
         if log_query:
             log_query(
                 query.database.sqlalchemy_uri,
                 query.executed_sql,
                 query.schema,
                 __name__,
                 security_manager,
                 log_params,
             )
         db.session.commit()
         with event_logger.log_context(
             action="execute_sql",
             database=database,
             object_ref=__name__,
         ):
             with stats_timing("sqllab.query.time_executing_query", stats_logger):
                 db_engine_spec.execute_with_cursor(cursor, sql, query)

             with stats_timing("sqllab.query.time_fetching_results", stats_logger):
                 logger.debug(
                     "Query %d: Fetching data for query object: %s",
                     query.id,
                     str(query.to_dict()),
                 )
                 data = db_engine_spec.fetch_data(cursor, increased_limit)
                 if query.limit is None or len(data) <= query.limit:
                     query.limiting_factor = LimitingFactor.NOT_LIMITED
                 else:
                     # return 1 row less than increased_query
                     data = data[:-1]
     except SoftTimeLimitExceeded as ex:
         query.status = QueryStatus.TIMED_OUT

         logger.warning("Query %d: Time limit exceeded", query.id)
         logger.debug("Query %d: %s", query.id, ex)
         raise SupersetErrorException(
             SupersetError(
                 message=__(
                     "The query was killed after %(sqllab_timeout)s seconds. It might "
                     "be too complex, or the database might be under heavy load.",
                     sqllab_timeout=SQLLAB_TIMEOUT,
                 ),
                 error_type=SupersetErrorType.SQLLAB_TIMEOUT_ERROR,
                 level=ErrorLevel.ERROR,
             )
         ) from ex
     except OAuth2RedirectError as ex:
         # user needs to authenticate with OAuth2 in order to run query
         raise ex
     except Exception as ex:
         # query is stopped in another thread/worker
         # stopping raises expected exceptions which we should skip
         db.session.refresh(query)
         if query.status == QueryStatus.STOPPED:
             raise SqlLabQueryStoppedException() from ex

         logger.debug("Query %d: %s", query.id, ex)
         raise SqlLabException(db_engine_spec.extract_error_message(ex)) from ex

     logger.debug("Query %d: Fetching cursor description", query.id)
     cursor_description = cursor.description
     return SupersetResultSet(data, cursor_description, db_engine_spec)


 def apply_limit_if_exists(
     database: Database, increased_limit: Optional[int], query: Query, sql: str
 ) -> str:
     if query.limit and increased_limit:
         # We are fetching one more than the requested limit in order
         # to test whether there are more rows than the limit. According to the DB
         # Engine support it will choose top or limit parse
         # Later, the extra row will be dropped before sending
         # the results back to the user.
         sql = database.apply_limit_to_sql(sql, increased_limit, force=True)
     return sql


 def _serialize_payload(
     payload: dict[Any, Any], use_msgpack: Optional[bool] = False
 ) -> Union[bytes, str]:
     logger.debug("Serializing to msgpack: %r", use_msgpack)
     if use_msgpack:
         return msgpack.dumps(
             payload, default=json_utils.json_iso_dttm_ser, use_bin_type=True
         )

     return json_utils.dumps(
         payload, default=json_utils.json_iso_dttm_ser, ignore_nan=True
     )


 def _serialize_and_expand_data(
     result_set: SupersetResultSet,
     db_engine_spec: BaseEngineSpec,
     use_msgpack: Optional[bool] = False,
     expand_data: bool = False,
 ) -> tuple[Union[bytes, str], list[Any], list[Any], list[Any]]:
     selected_columns = result_set.columns
     all_columns: list[Any]
     expanded_columns: list[Any]

     if use_msgpack:
         with stats_timing(
             "sqllab.query.results_backend_pa_serialization", stats_logger
         ):
             data = write_ipc_buffer(result_set.pa_table).to_pybytes()

         # expand when loading data from results backend
         all_columns, expanded_columns = (selected_columns, [])
     else:
         df = result_set.to_pandas_df()
         data = df_to_records(df) or []

         if expand_data:
             all_columns, data, expanded_columns = db_engine_spec.expand_data(
                 selected_columns, data
             )
         else:
             all_columns = selected_columns
             expanded_columns = []

     return (data, selected_columns, all_columns, expanded_columns)


 def execute_sql_statements(
     # pylint: disable=too-many-arguments, too-many-locals, too-many-statements, too-many-branches
     query_id: int,
     rendered_query: str,
     return_results: bool,
     store_results: bool,
     start_time: Optional[float],
     expand_data: bool,
     log_params: Optional[dict[str, Any]],
 ) -> Optional[dict[str, Any]]:
     """Executes the sql query returns the results."""
     if store_results and start_time:
         # only asynchronous queries
         stats_logger.timing("sqllab.query.time_pending", now_as_float() - start_time)

     query = get_query(query_id)
     payload: dict[str, Any] = {"query_id": query_id}
     database = query.database
     db_engine_spec = database.db_engine_spec
     db_engine_spec.patch()

     if database.allow_run_async and not results_backend:
         raise SupersetErrorException(
             SupersetError(
                 message=__("Results backend is not configured."),
                 error_type=SupersetErrorType.RESULTS_BACKEND_NOT_CONFIGURED_ERROR,
                 level=ErrorLevel.ERROR,
             )
         )

     # Breaking down into multiple statements
     parsed_query = ParsedQuery(
         rendered_query,
         engine=db_engine_spec.engine,
     )
     if not db_engine_spec.run_multiple_statements_as_one:
         statements = parsed_query.get_statements()
         logger.info(
             "Query %s: Executing %i statement(s)", str(query_id), len(statements)
         )
     else:
         statements = [rendered_query]
         logger.info("Query %s: Executing query as a single statement", str(query_id))

     logger.info("Query %s: Set query to 'running'", str(query_id))
     query.status = QueryStatus.RUNNING
     query.start_running_time = now_as_float()
     db.session.commit()

     # Should we create a table or view from the select?
     if (
         query.select_as_cta
         and query.ctas_method == CtasMethod.TABLE
         and not parsed_query.is_valid_ctas()
     ):
         raise SupersetErrorException(
             SupersetError(
                 message=__(
                     "CTAS (create table as select) can only be run with a query where "
                     "the last statement is a SELECT. Please make sure your query has "
                     "a SELECT as its last statement. Then, try running your query "
                     "again."
                 ),
                 error_type=SupersetErrorType.INVALID_CTAS_QUERY_ERROR,
                 level=ErrorLevel.ERROR,
             )
         )
     if (
         query.select_as_cta
         and query.ctas_method == CtasMethod.VIEW
         and not parsed_query.is_valid_cvas()
     ):
         raise SupersetErrorException(
             SupersetError(
                 message=__(
                     "CVAS (create view as select) can only be run with a query with "
                     "a single SELECT statement. Please make sure your query has only "
                     "a SELECT statement. Then, try running your query again."
                 ),
                 error_type=SupersetErrorType.INVALID_CVAS_QUERY_ERROR,
                 level=ErrorLevel.ERROR,
             )
         )

     with database.get_raw_connection(
         catalog=query.catalog,
         schema=query.schema,
         source=QuerySource.SQL_LAB,
     ) as conn:
         # Sharing a single connection and cursor across the
         # execution of all statements (if many)
         cursor = conn.cursor()
         cancel_query_id = db_engine_spec.get_cancel_query_id(cursor, query)
         if cancel_query_id is not None:
             query.set_extra_json_key(QUERY_CANCEL_KEY, cancel_query_id)
             db.session.commit()
         statement_count = len(statements)
         for i, statement in enumerate(statements):
             # Check if stopped
             db.session.refresh(query)
             if query.status == QueryStatus.STOPPED:
                 payload.update({"status": query.status})
                 return payload
             # For CTAS we create the table only on the last statement
             apply_ctas = query.select_as_cta and (
                 query.ctas_method == CtasMethod.VIEW
                 or (query.ctas_method == CtasMethod.TABLE and i == len(statements) - 1)
             )
             # Run statement
             msg = __(
                 "Running statement %(statement_num)s out of %(statement_count)s",
                 statement_num=i + 1,
                 statement_count=statement_count,
             )
             logger.info("Query %s: %s", str(query_id), msg)
             query.set_extra_json_key("progress", msg)
             db.session.commit()
             try:
                 result_set = execute_sql_statement(
                     statement,
                     query,
                     cursor,
                     log_params,
                     apply_ctas,
                 )
             except SqlLabQueryStoppedException:
                 payload.update({"status": QueryStatus.STOPPED})
                 return payload
             except Exception as ex:  # pylint: disable=broad-except
                 msg = str(ex)
                 prefix_message = (
                     __(
                         "Statement %(statement_num)s out of %(statement_count)s",
                         statement_num=i + 1,
                         statement_count=statement_count,
                     )
                     if statement_count > 1
                     else ""
                 )
                 payload = handle_query_error(ex, query, payload, prefix_message)
                 return payload

         # Commit the connection so CTA queries will create the table and any DML.
         should_commit = (
             not db_engine_spec.is_select_query(parsed_query)  # check if query is DML
             or apply_ctas
         )
         if should_commit:
             conn.commit()

     # Success, updating the query entry in database
     query.rows = result_set.size
     query.progress = 100
     query.set_extra_json_key("progress", None)
     query.set_extra_json_key("columns", result_set.columns)
     if query.select_as_cta:
         query.select_sql = database.select_star(
             Table(query.tmp_table_name, query.tmp_schema_name),
             limit=query.limit,
             show_cols=False,
             latest_partition=False,
         )
     query.end_time = now_as_float()

     use_arrow_data = store_results and cast(bool, results_backend_use_msgpack)
     data, selected_columns, all_columns, expanded_columns = _serialize_and_expand_data(
         result_set, db_engine_spec, use_arrow_data, expand_data
     )

     # TODO: data should be saved separately from metadata (likely in Parquet)
     payload.update(
         {
             "status": QueryStatus.SUCCESS,
             "data": data,
             "columns": all_columns,
             "selected_columns": selected_columns,
             "expanded_columns": expanded_columns,
             "query": query.to_dict(),
         }
     )
     payload["query"]["state"] = QueryStatus.SUCCESS

     if store_results and results_backend:
         key = str(uuid.uuid4())
         payload["query"]["resultsKey"] = key
         logger.info(
             "Query %s: Storing results in results backend, key: %s", str(query_id), key
         )
         with stats_timing("sqllab.query.results_backend_write", stats_logger):
             with stats_timing(
                 "sqllab.query.results_backend_write_serialization", stats_logger
             ):
                 serialized_payload = _serialize_payload(
                     payload, cast(bool, results_backend_use_msgpack)
                 )
             cache_timeout = database.cache_timeout
             if cache_timeout is None:
                 cache_timeout = config["CACHE_DEFAULT_TIMEOUT"]

             compressed = zlib_compress(serialized_payload)
             logger.debug(
                 "*** serialized payload size: %i", getsizeof(serialized_payload)
             )
             logger.debug("*** compressed payload size: %i", getsizeof(compressed))
             results_backend.set(key, compressed, cache_timeout)
         query.results_key = key

     query.status = QueryStatus.SUCCESS
     db.session.commit()

     if return_results:
         # since we're returning results we need to create non-arrow data
         if use_arrow_data:
             (
                 data,
                 selected_columns,
                 all_columns,
                 expanded_columns,
             ) = _serialize_and_expand_data(
                 result_set, db_engine_spec, False, expand_data
             )
             payload.update(
                 {
                     "data": data,
                     "columns": all_columns,
                     "selected_columns": selected_columns,
                     "expanded_columns": expanded_columns,
                 }
             )
         return payload

     return None


 def cancel_query(query: Query) -> bool:
     """
     Cancel a running query.

     Note some engines implicitly handle the cancelation of a query and thus no explicit
     action is required.

     :param query: Query to cancel
     :return: True if query cancelled successfully, False otherwise
     """

     if query.database.db_engine_spec.has_implicit_cancel():
         return True

     # Some databases may need to make preparations for query cancellation
     query.database.db_engine_spec.prepare_cancel_query(query)

     if query.extra.get(QUERY_EARLY_CANCEL_KEY):
         # Query has been cancelled prior to being able to set the cancel key.
         # This can happen if the query cancellation key can only be acquired after the
         # query has been executed
         return True

     cancel_query_id = query.extra.get(QUERY_CANCEL_KEY)
     if cancel_query_id is None:
         return False

     with query.database.get_sqla_engine(
         catalog=query.catalog,
         schema=query.schema,
         source=QuerySource.SQL_LAB,
     ) as engine:
         with closing(engine.raw_connection()) as conn:
             with closing(conn.cursor()) as cursor:
                 return query.database.db_engine_spec.cancel_query(
                     cursor, query, cancel_query_id
                 )
	# 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.
	import dataclasses
	import logging
	import uuid
	from contextlib import closing
	from datetime import datetime
	from sys import getsizeof
	from typing import Any, cast, Optional, Union

	import backoff
	import msgpack
	from celery.exceptions import SoftTimeLimitExceeded
	from flask_babel import gettext as __

	from superset import (
	app,
	db,
	is_feature_enabled,
	results_backend,
	results_backend_use_msgpack,
	security_manager,
	)
	from superset.common.db_query_status import QueryStatus
	from superset.constants import QUERY_CANCEL_KEY, QUERY_EARLY_CANCEL_KEY
	from superset.dataframe import df_to_records
	from superset.db_engine_specs import BaseEngineSpec
	from superset.errors import ErrorLevel, SupersetError, SupersetErrorType
	from superset.exceptions import (
	OAuth2RedirectError,
	SupersetErrorException,
	SupersetErrorsException,
	)
	from superset.extensions import celery_app, event_logger
	from superset.models.core import Database
	from superset.models.sql_lab import Query
	from superset.result_set import SupersetResultSet
	from superset.sql_parse import (
	CtasMethod,
	insert_rls_as_subquery,
	insert_rls_in_predicate,
	ParsedQuery,
	Table,
	)
	from superset.sqllab.limiting_factor import LimitingFactor
	from superset.sqllab.utils import write_ipc_buffer
	from superset.utils import json as json_utils
	from superset.utils.core import (
	override_user,
	QuerySource,
	zlib_compress,
	)
	from superset.utils.dates import now_as_float
	from superset.utils.decorators import stats_timing

	config = app.config
	stats_logger = config["STATS_LOGGER"]
	SQLLAB_TIMEOUT = config["SQLLAB_ASYNC_TIME_LIMIT_SEC"]
	SQLLAB_HARD_TIMEOUT = SQLLAB_TIMEOUT + 60
	SQL_MAX_ROW = config["SQL_MAX_ROW"]
	SQLLAB_CTAS_NO_LIMIT = config["SQLLAB_CTAS_NO_LIMIT"]
	log_query = config["QUERY_LOGGER"]
	logger = logging.getLogger(__name__)


	class SqlLabException(Exception):
	pass


	class SqlLabSecurityException(SqlLabException):
	pass


	class SqlLabQueryStoppedException(SqlLabException):
	pass


	def handle_query_error(
	ex: Exception,
	query: Query,
	payload: Optional[dict[str, Any]] = None,
	prefix_message: str = "",
	) -> dict[str, Any]:
	"""Local method handling error while processing the SQL"""
	payload = payload or {}
	msg = f"{prefix_message} {str(ex)}".strip()
	query.error_message = msg
	query.tmp_table_name = None
	query.status = QueryStatus.FAILED
	# TODO: re-enable this after updating the frontend to properly display timeout status
	# if query.status != QueryStatus.TIMED_OUT:
	# query.status = QueryStatus.FAILED
	if not query.end_time:
	query.end_time = now_as_float()

	# extract DB-specific errors (invalid column, eg)
	if isinstance(ex, SupersetErrorException):
	errors = [ex.error]
	elif isinstance(ex, SupersetErrorsException):
	errors = ex.errors
	else:
	errors = query.database.db_engine_spec.extract_errors(str(ex))

	errors_payload = [dataclasses.asdict(error) for error in errors]
	if errors:
	query.set_extra_json_key("errors", errors_payload)

	db.session.commit()
	payload.update({"status": query.status, "error": msg, "errors": errors_payload})
	if troubleshooting_link := config["TROUBLESHOOTING_LINK"]:
	payload["link"] = troubleshooting_link
	return payload


	def get_query_backoff_handler(details: dict[Any, Any]) -> None:
	query_id = details["kwargs"]["query_id"]
	logger.error(
	"Query with id `%s` could not be retrieved", str(query_id), exc_info=True
	)
	stats_logger.incr(f"error_attempting_orm_query_{details['tries'] - 1}")
	logger.error(
	"Query %s: Sleeping for a sec before retrying...", str(query_id), exc_info=True
	)


	def get_query_giveup_handler(_: Any) -> None:
	stats_logger.incr("error_failed_at_getting_orm_query")


	@backoff.on_exception(
	backoff.constant,
	SqlLabException,
	interval=1,
	on_backoff=get_query_backoff_handler,
	on_giveup=get_query_giveup_handler,
	max_tries=5,
	)
	def get_query(query_id: int) -> Query:
	"""attempts to get the query and retry if it cannot"""
	try:
	return db.session.query(Query).filter_by(id=query_id).one()
	except Exception as ex:
	raise SqlLabException("Failed at getting query") from ex


	@celery_app.task(
	name="sql_lab.get_sql_results",
	time_limit=SQLLAB_HARD_TIMEOUT,
	soft_time_limit=SQLLAB_TIMEOUT,
	)
	def get_sql_results( # pylint: disable=too-many-arguments
	query_id: int,
	rendered_query: str,
	return_results: bool = True,
	store_results: bool = False,
	username: Optional[str] = None,
	start_time: Optional[float] = None,
	expand_data: bool = False,
	log_params: Optional[dict[str, Any]] = None,
	) -> Optional[dict[str, Any]]:
	"""Executes the sql query returns the results."""
	with override_user(security_manager.find_user(username)):
	try:
	return execute_sql_statements(
	query_id,
	rendered_query,
	return_results,
	store_results,
	start_time=start_time,
	expand_data=expand_data,
	log_params=log_params,
	)
	except Exception as ex: # pylint: disable=broad-except
	logger.debug("Query %d: %s", query_id, ex)
	stats_logger.incr("error_sqllab_unhandled")
	query = get_query(query_id)
	return handle_query_error(ex, query)


	def execute_sql_statement( # pylint: disable=too-many-statements
	sql_statement: str,
	query: Query,
	cursor: Any,
	log_params: Optional[dict[str, Any]],
	apply_ctas: bool = False,
	) -> SupersetResultSet:
	"""Executes a single SQL statement"""
	database: Database = query.database
	db_engine_spec = database.db_engine_spec

	parsed_query = ParsedQuery(sql_statement, engine=db_engine_spec.engine)
	if is_feature_enabled("RLS_IN_SQLLAB"):
	# There are two ways to insert RLS: either replacing the table with a subquery
	# that has the RLS, or appending the RLS to the ``WHERE`` clause. The former is
	# safer, but not supported in all databases.
	insert_rls = (
	insert_rls_as_subquery
	if database.db_engine_spec.allows_subqueries
	and database.db_engine_spec.allows_alias_in_select
	else insert_rls_in_predicate
	)

	# Insert any applicable RLS predicates
	parsed_query = ParsedQuery(
	str(
	insert_rls(
	parsed_query._parsed[0], # pylint: disable=protected-access
	database.id,
	query.schema,
	)
	),
	engine=db_engine_spec.engine,
	)

	sql = parsed_query.stripped()

	# This is a test to see if the query is being
	# limited by either the dropdown or the sql.
	# We are testing to see if more rows exist than the limit.
	increased_limit = None if query.limit is None else query.limit + 1

	if not db_engine_spec.is_readonly_query(parsed_query) and not database.allow_dml:
	raise SupersetErrorException(
	SupersetError(
	message=__("Only SELECT statements are allowed against this database."),
	error_type=SupersetErrorType.DML_NOT_ALLOWED_ERROR,
	level=ErrorLevel.ERROR,
	)
	)
	if apply_ctas:
	if not query.tmp_table_name:
	start_dttm = datetime.fromtimestamp(query.start_time)
	query.tmp_table_name = (
	f'tmp_{query.user_id}_table_{start_dttm.strftime("%Y_%m_%d_%H_%M_%S")}'
	)
	sql = parsed_query.as_create_table(
	query.tmp_table_name,
	schema_name=query.tmp_schema_name,
	method=query.ctas_method,
	)
	query.select_as_cta_used = True

	# Do not apply limit to the CTA queries when SQLLAB_CTAS_NO_LIMIT is set to true
	if db_engine_spec.is_select_query(parsed_query) and not (
	query.select_as_cta_used and SQLLAB_CTAS_NO_LIMIT
	):
	if SQL_MAX_ROW and (not query.limit or query.limit > SQL_MAX_ROW):
	query.limit = SQL_MAX_ROW
	sql = apply_limit_if_exists(database, increased_limit, query, sql)

	# Hook to allow environment-specific mutation (usually comments) to the SQL
	sql = database.mutate_sql_based_on_config(sql)
	try:
	query.executed_sql = sql
	if log_query:
	log_query(
	query.database.sqlalchemy_uri,
	query.executed_sql,
	query.schema,
	__name__,
	security_manager,
	log_params,
	)
	db.session.commit()
	with event_logger.log_context(
	action="execute_sql",
	database=database,
	object_ref=__name__,
	):
	with stats_timing("sqllab.query.time_executing_query", stats_logger):
	db_engine_spec.execute_with_cursor(cursor, sql, query)

	with stats_timing("sqllab.query.time_fetching_results", stats_logger):
	logger.debug(
	"Query %d: Fetching data for query object: %s",
	query.id,
	str(query.to_dict()),
	)
	data = db_engine_spec.fetch_data(cursor, increased_limit)
	if query.limit is None or len(data) <= query.limit:
	query.limiting_factor = LimitingFactor.NOT_LIMITED
	else:
	# return 1 row less than increased_query
	data = data[:-1]
	except SoftTimeLimitExceeded as ex:
	query.status = QueryStatus.TIMED_OUT

	logger.warning("Query %d: Time limit exceeded", query.id)
	logger.debug("Query %d: %s", query.id, ex)
	raise SupersetErrorException(
	SupersetError(
	message=__(
	"The query was killed after %(sqllab_timeout)s seconds. It might "
	"be too complex, or the database might be under heavy load.",
	sqllab_timeout=SQLLAB_TIMEOUT,
	),
	error_type=SupersetErrorType.SQLLAB_TIMEOUT_ERROR,
	level=ErrorLevel.ERROR,
	)
	) from ex
	except OAuth2RedirectError as ex:
	# user needs to authenticate with OAuth2 in order to run query
	raise ex
	except Exception as ex:
	# query is stopped in another thread/worker
	# stopping raises expected exceptions which we should skip
	db.session.refresh(query)
	if query.status == QueryStatus.STOPPED:
	raise SqlLabQueryStoppedException() from ex

	logger.debug("Query %d: %s", query.id, ex)
	raise SqlLabException(db_engine_spec.extract_error_message(ex)) from ex

	logger.debug("Query %d: Fetching cursor description", query.id)
	cursor_description = cursor.description
	return SupersetResultSet(data, cursor_description, db_engine_spec)


	def apply_limit_if_exists(
	database: Database, increased_limit: Optional[int], query: Query, sql: str
	) -> str:
	if query.limit and increased_limit:
	# We are fetching one more than the requested limit in order
	# to test whether there are more rows than the limit. According to the DB
	# Engine support it will choose top or limit parse
	# Later, the extra row will be dropped before sending
	# the results back to the user.
	sql = database.apply_limit_to_sql(sql, increased_limit, force=True)
	return sql


	def _serialize_payload(
	payload: dict[Any, Any], use_msgpack: Optional[bool] = False
	) -> Union[bytes, str]:
	logger.debug("Serializing to msgpack: %r", use_msgpack)
	if use_msgpack:
	return msgpack.dumps(
	payload, default=json_utils.json_iso_dttm_ser, use_bin_type=True
	)

	return json_utils.dumps(
	payload, default=json_utils.json_iso_dttm_ser, ignore_nan=True
	)


	def _serialize_and_expand_data(
	result_set: SupersetResultSet,
	db_engine_spec: BaseEngineSpec,
	use_msgpack: Optional[bool] = False,
	expand_data: bool = False,
	) -> tuple[Union[bytes, str], list[Any], list[Any], list[Any]]:
	selected_columns = result_set.columns
	all_columns: list[Any]
	expanded_columns: list[Any]

	if use_msgpack:
	with stats_timing(
	"sqllab.query.results_backend_pa_serialization", stats_logger
	):
	data = write_ipc_buffer(result_set.pa_table).to_pybytes()

	# expand when loading data from results backend
	all_columns, expanded_columns = (selected_columns, [])
	else:
	df = result_set.to_pandas_df()
	data = df_to_records(df) or []

	if expand_data:
	all_columns, data, expanded_columns = db_engine_spec.expand_data(
	selected_columns, data
	)
	else:
	all_columns = selected_columns
	expanded_columns = []

	return (data, selected_columns, all_columns, expanded_columns)


	def execute_sql_statements(
	# pylint: disable=too-many-arguments, too-many-locals, too-many-statements, too-many-branches
	query_id: int,
	rendered_query: str,
	return_results: bool,
	store_results: bool,
	start_time: Optional[float],
	expand_data: bool,
	log_params: Optional[dict[str, Any]],
	) -> Optional[dict[str, Any]]:
	"""Executes the sql query returns the results."""
	if store_results and start_time:
	# only asynchronous queries
	stats_logger.timing("sqllab.query.time_pending", now_as_float() - start_time)

	query = get_query(query_id)
	payload: dict[str, Any] = {"query_id": query_id}
	database = query.database
	db_engine_spec = database.db_engine_spec
	db_engine_spec.patch()

	if database.allow_run_async and not results_backend:
	raise SupersetErrorException(
	SupersetError(
	message=__("Results backend is not configured."),
	error_type=SupersetErrorType.RESULTS_BACKEND_NOT_CONFIGURED_ERROR,
	level=ErrorLevel.ERROR,
	)
	)

	# Breaking down into multiple statements
	parsed_query = ParsedQuery(
	rendered_query,
	engine=db_engine_spec.engine,
	)
	if not db_engine_spec.run_multiple_statements_as_one:
	statements = parsed_query.get_statements()
	logger.info(
	"Query %s: Executing %i statement(s)", str(query_id), len(statements)
	)
	else:
	statements = [rendered_query]
	logger.info("Query %s: Executing query as a single statement", str(query_id))

	logger.info("Query %s: Set query to 'running'", str(query_id))
	query.status = QueryStatus.RUNNING
	query.start_running_time = now_as_float()
	db.session.commit()

	# Should we create a table or view from the select?
	if (
	query.select_as_cta
	and query.ctas_method == CtasMethod.TABLE
	and not parsed_query.is_valid_ctas()
	):
	raise SupersetErrorException(
	SupersetError(
	message=__(
	"CTAS (create table as select) can only be run with a query where "
	"the last statement is a SELECT. Please make sure your query has "
	"a SELECT as its last statement. Then, try running your query "
	"again."
	),
	error_type=SupersetErrorType.INVALID_CTAS_QUERY_ERROR,
	level=ErrorLevel.ERROR,
	)
	)
	if (
	query.select_as_cta
	and query.ctas_method == CtasMethod.VIEW
	and not parsed_query.is_valid_cvas()
	):
	raise SupersetErrorException(
	SupersetError(
	message=__(
	"CVAS (create view as select) can only be run with a query with "
	"a single SELECT statement. Please make sure your query has only "
	"a SELECT statement. Then, try running your query again."
	),
	error_type=SupersetErrorType.INVALID_CVAS_QUERY_ERROR,
	level=ErrorLevel.ERROR,
	)
	)

	with database.get_raw_connection(
	catalog=query.catalog,
	schema=query.schema,
	source=QuerySource.SQL_LAB,
	) as conn:
	# Sharing a single connection and cursor across the
	# execution of all statements (if many)
	cursor = conn.cursor()
	cancel_query_id = db_engine_spec.get_cancel_query_id(cursor, query)
	if cancel_query_id is not None:
	query.set_extra_json_key(QUERY_CANCEL_KEY, cancel_query_id)
	db.session.commit()
	statement_count = len(statements)
	for i, statement in enumerate(statements):
	# Check if stopped
	db.session.refresh(query)
	if query.status == QueryStatus.STOPPED:
	payload.update({"status": query.status})
	return payload
	# For CTAS we create the table only on the last statement
	apply_ctas = query.select_as_cta and (
	query.ctas_method == CtasMethod.VIEW
	or (query.ctas_method == CtasMethod.TABLE and i == len(statements) - 1)
	)
	# Run statement
	msg = __(
	"Running statement %(statement_num)s out of %(statement_count)s",
	statement_num=i + 1,
	statement_count=statement_count,
	)
	logger.info("Query %s: %s", str(query_id), msg)
	query.set_extra_json_key("progress", msg)
	db.session.commit()
	try:
	result_set = execute_sql_statement(
	statement,
	query,
	cursor,
	log_params,
	apply_ctas,
	)
	except SqlLabQueryStoppedException:
	payload.update({"status": QueryStatus.STOPPED})
	return payload
	except Exception as ex: # pylint: disable=broad-except
	msg = str(ex)
	prefix_message = (
	__(
	"Statement %(statement_num)s out of %(statement_count)s",
	statement_num=i + 1,
	statement_count=statement_count,
	)
	if statement_count > 1
	else ""
	)
	payload = handle_query_error(ex, query, payload, prefix_message)
	return payload

	# Commit the connection so CTA queries will create the table and any DML.
	should_commit = (
	not db_engine_spec.is_select_query(parsed_query) # check if query is DML
	or apply_ctas
	)
	if should_commit:
	conn.commit()

	# Success, updating the query entry in database
	query.rows = result_set.size
	query.progress = 100
	query.set_extra_json_key("progress", None)
	query.set_extra_json_key("columns", result_set.columns)
	if query.select_as_cta:
	query.select_sql = database.select_star(
	Table(query.tmp_table_name, query.tmp_schema_name),
	limit=query.limit,
	show_cols=False,
	latest_partition=False,
	)
	query.end_time = now_as_float()

	use_arrow_data = store_results and cast(bool, results_backend_use_msgpack)
	data, selected_columns, all_columns, expanded_columns = _serialize_and_expand_data(
	result_set, db_engine_spec, use_arrow_data, expand_data
	)

	# TODO: data should be saved separately from metadata (likely in Parquet)
	payload.update(
	{
	"status": QueryStatus.SUCCESS,
	"data": data,
	"columns": all_columns,
	"selected_columns": selected_columns,
	"expanded_columns": expanded_columns,
	"query": query.to_dict(),
	}
	)
	payload["query"]["state"] = QueryStatus.SUCCESS

	if store_results and results_backend:
	key = str(uuid.uuid4())
	payload["query"]["resultsKey"] = key
	logger.info(
	"Query %s: Storing results in results backend, key: %s", str(query_id), key
	)
	with stats_timing("sqllab.query.results_backend_write", stats_logger):
	with stats_timing(
	"sqllab.query.results_backend_write_serialization", stats_logger
	):
	serialized_payload = _serialize_payload(
	payload, cast(bool, results_backend_use_msgpack)
	)
	cache_timeout = database.cache_timeout
	if cache_timeout is None:
	cache_timeout = config["CACHE_DEFAULT_TIMEOUT"]

	compressed = zlib_compress(serialized_payload)
	logger.debug(
	"*** serialized payload size: %i", getsizeof(serialized_payload)
	)
	logger.debug("*** compressed payload size: %i", getsizeof(compressed))
	results_backend.set(key, compressed, cache_timeout)
	query.results_key = key

	query.status = QueryStatus.SUCCESS
	db.session.commit()

	if return_results:
	# since we're returning results we need to create non-arrow data
	if use_arrow_data:
	(
	data,
	selected_columns,
	all_columns,
	expanded_columns,
	) = _serialize_and_expand_data(
	result_set, db_engine_spec, False, expand_data
	)
	payload.update(
	{
	"data": data,
	"columns": all_columns,
	"selected_columns": selected_columns,
	"expanded_columns": expanded_columns,
	}
	)
	return payload

	return None


	def cancel_query(query: Query) -> bool:
	"""
	Cancel a running query.

	Note some engines implicitly handle the cancelation of a query and thus no explicit
	action is required.

	:param query: Query to cancel
	:return: True if query cancelled successfully, False otherwise
	"""

	if query.database.db_engine_spec.has_implicit_cancel():
	return True

	# Some databases may need to make preparations for query cancellation
	query.database.db_engine_spec.prepare_cancel_query(query)

	if query.extra.get(QUERY_EARLY_CANCEL_KEY):
	# Query has been cancelled prior to being able to set the cancel key.
	# This can happen if the query cancellation key can only be acquired after the
	# query has been executed
	return True

	cancel_query_id = query.extra.get(QUERY_CANCEL_KEY)
	if cancel_query_id is None:
	return False

	with query.database.get_sqla_engine(
	catalog=query.catalog,
	schema=query.schema,
	source=QuerySource.SQL_LAB,
	) as engine:
	with closing(engine.raw_connection()) as conn:
	with closing(conn.cursor()) as cursor:
	return query.database.db_engine_spec.cancel_query(
	cursor, query, cancel_query_id
	)