{-# OPTIONS_HADDOCK ignore-exports #-} -- | Responsible for translating and building an MSSQL execution plan for -- delete mutations. -- -- This module is used by "Hasura.Backends.MSSQL.Instances.Execute". module Hasura.Backends.MSSQL.Execute.Insert ( executeInsert, ) where import Data.HashMap.Strict qualified as HM import Database.MSSQL.Transaction qualified as Tx import Hasura.Backends.MSSQL.Connection import Hasura.Backends.MSSQL.Execute.QueryTags (withQueryTags) import Hasura.Backends.MSSQL.FromIr as TSQL import Hasura.Backends.MSSQL.FromIr.Constants (tempTableNameInserted, tempTableNameValues) import Hasura.Backends.MSSQL.FromIr.Expression import Hasura.Backends.MSSQL.FromIr.Insert (toMerge) import Hasura.Backends.MSSQL.FromIr.Insert qualified as TSQL import Hasura.Backends.MSSQL.FromIr.MutationResponse import Hasura.Backends.MSSQL.FromIr.SelectIntoTempTable qualified as TSQL import Hasura.Backends.MSSQL.Plan import Hasura.Backends.MSSQL.SQL.Error import Hasura.Backends.MSSQL.ToQuery as TQ import Hasura.Backends.MSSQL.Types.Insert (BackendInsert (..), IfMatched) import Hasura.Backends.MSSQL.Types.Internal as TSQL import Hasura.Base.Error import Hasura.EncJSON import Hasura.GraphQL.Schema.Options qualified as Options import Hasura.Prelude import Hasura.QueryTags (QueryTagsComment) import Hasura.RQL.IR import Hasura.RQL.Types.Backend import Hasura.RQL.Types.Column import Hasura.SQL.Backend import Hasura.Session -- | Execute and insert/upsert mutation against MS SQL Server. -- See the documentation for 'buildInsertTx' to see how it's done. executeInsert :: (MonadError QErr m, MonadReader QueryTagsComment m) => UserInfo -> Options.StringifyNumbers -> SourceConfig 'MSSQL -> AnnotatedInsert 'MSSQL Void (UnpreparedValue 'MSSQL) -> m (ExceptT QErr IO EncJSON) executeInsert userInfo stringifyNum sourceConfig annInsert = do queryTags <- ask -- Convert the leaf values from @'UnpreparedValue' to sql @'Expression' insert <- traverse (prepareValueQuery sessionVariables) annInsert let insertTx = buildInsertTx tableName withAlias stringifyNum insert queryTags pure $ mssqlRunReadWrite (_mscExecCtx sourceConfig) insertTx where sessionVariables = _uiSession userInfo tableName = _aiTableName $ _aiData annInsert withAlias = "with_alias" -- | Translates an IR Insert/upsert mutation description to SQL and -- builds a corresponding transaction to run against MS SQL Server. -- -- Execution of a MSSQL insert mutation broadly involves two steps. -- -- > insert_table(objects: [ -- > {column1: value1, column2: value2}, -- > {column1: value3, column2: value4} -- > ], -- > if_matched: {match_columns: [column1], update_columns: [column2]} # Optional field to enable upserting -- > ){ -- > affected_rows -- > returning { -- > column1 -- > column2 -- > } -- > } -- -- = Step 1: Inserting rows into the table -- -- a. Create an empty temporary table with name #inserted to store affected rows (for the response) -- -- > SELECT column1, column2 INTO #inserted FROM some_table WHERE (1 <> 1) -- > UNION ALL SELECT column1, column2 FROM some_table WHERE (1 <> 1); -- -- b. If 'if_matched' is found: Use MERGE statment to perform upsert -- -- b.1 Use #values temporary table to store input object values -- -- > SELECT column1, column2 INTO #values FROM some_table WHERE (1 <> 1) -- -- b.2 Insert input object values into the temporary table -- -- > INSERT INTO #values (column1, column2) VALUES (value1, value2), (value3, value4) -- -- -- b.3 Generate an SQL Merge statement to perform either update or insert (upsert) to the table -- -- > MERGE some_table AS [target] -- > USING (SELECT column1, column2 from #values) AS [source](column1, column2) ON ([target].column1 = [source].column1) -- > WHEN MATCHED THEN UPDATE SET [column2] = [source].[column2] -- > WHEN NOT MATCHED THEN INSERT (column1, column2) VALUES ([source].column1, [source].column2) -- > OUTPUT INSERTED.column1, INSERTED.column2 INTO #inserted(column1, column2) -- -- __NOTE__: In @MERGE@ statement, we use @SELECT query from a temporary table@ as source but not @VALUES@ expression -- because, we can't use @DEFAULT@ expression (for missing columns in @objects@ field) in @VALUES@ expression. -- -- __else__: Generate an SQL Insert statement from the GraphQL insert mutation with OUTPUT expression to fill @#inserted@ temporary table with inserted rows -- -- > INSERT INTO some_table (column1, column2) OUTPUT INSERTED.column1, INSERTED.column2 INTO #inserted(column1, column2) VALUES (value1, value2), (value3, value4); -- -- = Step 2: Generation of the mutation response -- -- An SQL statement is generated and when executed it returns the mutation selection set containing 'affected_rows' and 'returning' field values. -- The statement is generated with multiple sub select queries explained below: -- -- a. A SQL Select statement to fetch only inserted rows from temporary table -- -- > := SELECT * FROM #inserted -- -- The above select statement is referred through a common table expression - @WITH [with_alias] AS ()@ -- -- b. The @affected_rows@ field value is obtained by using @COUNT@ aggregation and the @returning@ field selection set is translated to -- a SQL select statement using 'mkSQLSelect'. -- -- > := -- > SELECT (SELECT COUNT(*) FROM [with_alias]) AS [affected_rows], (select_from_returning) AS [returning] -- > FOR JSON PATH, INCLUDE_NULL_VALUES, WITHOUT_ARRAY_WRAPPER -- -- c. Evaluate the check constraint using @CASE@ expression. We use @SUM@ aggregation to check if any inserted row has failed the check constraint. -- -- > := -- > SELECT SUM([check_sub_query].[check_evaluation]) -- > FROM -- > ( SELECT -- > (CASE WHEN THEN 0 ELSE 1 END) AS [check_evaluation] -- > FROM -- > [with_alias] -- > ) AS [check_sub_query] -- -- d. The final select statement look like -- -- > WITH "with_alias" AS () -- > SELECT () AS [mutation_response], () AS [check_constraint_select] -- -- When executed, the above statement returns a single row with mutation response as a string value and check constraint result as an integer value. buildInsertTx :: TSQL.TableName -> Text -> Options.StringifyNumbers -> AnnotatedInsert 'MSSQL Void Expression -> QueryTagsComment -> Tx.TxET QErr IO EncJSON buildInsertTx tableName withAlias stringifyNum insert queryTags = do let tableColumns = _aiTableColumns $ _aiData insert ifMatchedField = _biIfMatched . _aiBackendInsert . _aiData $ insert -- Create #inserted temporary table let createInsertedTempTableQuery = toQueryFlat $ TQ.fromSelectIntoTempTable $ TSQL.toSelectIntoTempTable tempTableNameInserted tableName tableColumns RemoveConstraints Tx.unitQueryE defaultMSSQLTxErrorHandler (createInsertedTempTableQuery `withQueryTags` queryTags) -- Choose between running a regular @INSERT INTO@ statement or a @MERGE@ statement -- depending on the @if_matched@ field. -- -- Affected rows will be inserted into the #inserted temporary table regardless. case ifMatchedField of Nothing -> do -- Insert values into the table using INSERT query let insertQuery = toQueryFlat $ TQ.fromInsert $ TSQL.fromInsert insert Tx.unitQueryE mutationMSSQLTxErrorHandler (insertQuery `withQueryTags` queryTags) Just ifMatched -> buildUpsertTx tableName insert ifMatched queryTags -- Build a response to the user using the values in the temporary table named #inserted (responseText, checkConditionInt) <- buildInsertResponseTx stringifyNum withAlias insert queryTags -- Drop the #inserted temp table let dropInsertedTempTableQuery = toQueryFlat $ dropTempTableQuery tempTableNameInserted Tx.unitQueryE defaultMSSQLTxErrorHandler (dropInsertedTempTableQuery `withQueryTags` queryTags) -- Raise an exception if the check condition is not met unless (checkConditionInt == 0) $ throw400 PermissionError "check constraint of an insert/update permission has failed" pure $ encJFromText responseText -- | Translates an IR IfMatched clause to SQL and -- builds a corresponding transaction to run against MS SQL Server. -- -- We do this in 2 steps: -- -- 1. Create a temporary table called @#values@ which will hold the values the user want to insert, -- and insert the values into it -- 2. Build an run a @MERGE@ statement to either insert or upsert the values from the temporary table @#values@ -- into the original table, and output the affected rows into another temporary table called @#inserted@ -- which will be used to build a "response" for the user. -- -- Should be used as part of a bigger transaction in 'buildInsertTx'. buildUpsertTx :: TSQL.TableName -> AnnotatedInsert 'MSSQL Void Expression -> IfMatched Expression -> QueryTagsComment -> Tx.TxET QErr IO () buildUpsertTx tableName insert ifMatched queryTags = do let presets = _aiPresetValues $ _aiData insert insertColumnNames = concatMap (map fst . getInsertColumns) (_aiInsertObject $ _aiData insert) <> HM.keys presets allTableColumns = _aiTableColumns $ _aiData insert insertColumns = filter (\c -> ciColumn c `elem` insertColumnNames) allTableColumns createValuesTempTableQuery = toQueryFlat $ TQ.fromSelectIntoTempTable $ -- We want to KeepConstraints here so the user can omit values for identity columns such as `id` TSQL.toSelectIntoTempTable tempTableNameValues tableName insertColumns KeepConstraints -- Create #values temporary table Tx.unitQueryE defaultMSSQLTxErrorHandler (createValuesTempTableQuery `withQueryTags` queryTags) -- Store values in #values temporary table let insertValuesIntoTempTableQuery = toQueryFlat $ TQ.fromInsertValuesIntoTempTable $ TSQL.toInsertValuesIntoTempTable tempTableNameValues insert Tx.unitQueryE mutationMSSQLTxErrorHandler (insertValuesIntoTempTableQuery `withQueryTags` queryTags) -- Run the MERGE query and store the mutated rows in #inserted temporary table merge <- runFromIr (toMerge tableName (_aiInsertObject $ _aiData insert) allTableColumns ifMatched) let mergeQuery = toQueryFlat $ TQ.fromMerge merge Tx.unitQueryE mutationMSSQLTxErrorHandler (mergeQuery `withQueryTags` queryTags) -- After @MERGE@ we no longer need this temporary table Tx.unitQueryE defaultMSSQLTxErrorHandler (toQueryFlat (dropTempTableQuery tempTableNameValues) `withQueryTags` queryTags) -- | Builds a response to the user using the values in the temporary table named #inserted. buildInsertResponseTx :: Options.StringifyNumbers -> Text -> AnnotatedInsert 'MSSQL Void Expression -> QueryTagsComment -> Tx.TxET QErr IO (Text, Int) buildInsertResponseTx stringifyNum withAlias insert queryTags = do -- Generate a SQL SELECT statement which outputs the mutation response using the #inserted mutationOutputSelect <- runFromIr $ mkMutationOutputSelect stringifyNum withAlias $ _aiOutput insert -- The check constraint is translated to boolean expression let checkCondition = fst $ _aiCheckCondition $ _aiData insert checkBoolExp <- runFromIr $ runReaderT (fromGBoolExp checkCondition) (EntityAlias withAlias) let withSelect = emptySelect { selectProjections = [StarProjection], selectFrom = Just $ FromTempTable $ Aliased tempTableNameInserted "inserted_alias" } -- SELECT () AS [mutation_response], () AS [check_constraint_select] mutationOutputCheckConstraintSelect = selectMutationOutputAndCheckCondition withAlias mutationOutputSelect checkBoolExp -- WITH "with_alias" AS () -- SELECT () AS [mutation_response], () AS [check_constraint_select] finalSelect = mutationOutputCheckConstraintSelect {selectWith = Just $ With $ pure $ Aliased withSelect withAlias} -- Execute SELECT query to fetch mutation response and check constraint result let selectQuery = toQueryFlat (TQ.fromSelect finalSelect) Tx.singleRowQueryE defaultMSSQLTxErrorHandler (selectQuery `withQueryTags` queryTags)