-- | Postgres Execute Mutation -- -- Generic combinators for translating and excecuting IR mutation statements. -- Used by the specific mutation modules, e.g. 'Hasura.Backends.Postgres.Execute.Insert'. -- -- See 'Hasura.Backends.Postgres.Instances.Execute'. module Hasura.Backends.Postgres.Execute.Mutation ( MutateResp (..), -- execDeleteQuery, execInsertQuery, execUpdateQuery, -- executeMutationOutputQuery, mutateAndFetchCols, ) where import Control.Monad.Writer (runWriter) import Data.Aeson import Data.Sequence qualified as DS import Database.PG.Query qualified as PG import Hasura.Backends.Postgres.Connection import Hasura.Backends.Postgres.SQL.DML qualified as S import Hasura.Backends.Postgres.SQL.Types import Hasura.Backends.Postgres.SQL.Value import Hasura.Backends.Postgres.Translate.Delete import Hasura.Backends.Postgres.Translate.Insert import Hasura.Backends.Postgres.Translate.Mutation import Hasura.Backends.Postgres.Translate.Returning import Hasura.Backends.Postgres.Translate.Select import Hasura.Backends.Postgres.Translate.Select.Internal.Helpers (customSQLToTopLevelCTEs, toQuery) import Hasura.Backends.Postgres.Translate.Update import Hasura.Base.Error import Hasura.EncJSON import Hasura.GraphQL.Schema.NamingCase (NamingCase) import Hasura.Prelude import Hasura.QueryTags import Hasura.RQL.IR.BoolExp import Hasura.RQL.IR.Delete import Hasura.RQL.IR.Insert import Hasura.RQL.IR.Returning import Hasura.RQL.IR.Select import Hasura.RQL.IR.Update import Hasura.RQL.Types.Backend import Hasura.RQL.Types.BackendType import Hasura.RQL.Types.Column import Hasura.RQL.Types.Common import Hasura.RQL.Types.Schema.Options qualified as Options import Hasura.Session data MutateResp (b :: BackendType) a = MutateResp { _mrAffectedRows :: Int, _mrReturningColumns :: [ColumnValues b a] } deriving (Generic) deriving instance (Backend b, Show a) => Show (MutateResp b a) deriving instance (Backend b, Eq a) => Eq (MutateResp b a) instance (Backend b, ToJSON a) => ToJSON (MutateResp b a) where toJSON = genericToJSON hasuraJSON instance (Backend b, FromJSON a) => FromJSON (MutateResp b a) where parseJSON = genericParseJSON hasuraJSON data Mutation (b :: BackendType) = Mutation { _mTable :: QualifiedTable, _mQuery :: (MutationCTE, DS.Seq PG.PrepArg), _mOutput :: MutationOutput b, _mCols :: [ColumnInfo b], _mStrfyNum :: Options.StringifyNumbers, _mNamingConvention :: Maybe NamingCase } mkMutation :: UserInfo -> QualifiedTable -> (MutationCTE, DS.Seq PG.PrepArg) -> MutationOutput ('Postgres pgKind) -> [ColumnInfo ('Postgres pgKind)] -> Options.StringifyNumbers -> Maybe NamingCase -> Mutation ('Postgres pgKind) mkMutation _userInfo table query output allCols strfyNum tCase = Mutation table query output allCols strfyNum tCase runMutation :: ( MonadTx m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => Mutation ('Postgres pgKind) -> m EncJSON runMutation mut = bool (mutateAndReturn mut) (mutateAndSel mut) $ hasNestedFld $ _mOutput mut mutateAndReturn :: ( MonadTx m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => Mutation ('Postgres pgKind) -> m EncJSON mutateAndReturn (Mutation qt (cte, p) mutationOutput allCols strfyNum tCase) = executeMutationOutputQuery qt allCols Nothing cte mutationOutput strfyNum tCase (toList p) execUpdateQuery :: forall pgKind m. ( MonadTx m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => Options.StringifyNumbers -> Maybe NamingCase -> UserInfo -> (AnnotatedUpdate ('Postgres pgKind), DS.Seq PG.PrepArg) -> m EncJSON execUpdateQuery strfyNum tCase userInfo (u, p) = case updateCTE of Update singleUpdate -> runCTE singleUpdate MultiUpdate ctes -> encJFromList <$> traverse runCTE ctes where updateCTE :: UpdateCTE updateCTE = mkUpdateCTE u runCTE :: S.TopLevelCTE -> m EncJSON runCTE cte = runMutation (mkMutation userInfo (_auTable u) (MCCheckConstraint cte, p) (_auOutput u) (_auAllCols u) strfyNum tCase) execDeleteQuery :: forall pgKind m. ( MonadTx m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => Options.StringifyNumbers -> Maybe NamingCase -> UserInfo -> (AnnDel ('Postgres pgKind), DS.Seq PG.PrepArg) -> m EncJSON execDeleteQuery strfyNum tCase userInfo (u, p) = runMutation (mkMutation userInfo (_adTable u) (MCDelete delete, p) (_adOutput u) (_adAllCols u) strfyNum tCase) where delete = mkDelete u execInsertQuery :: ( MonadTx m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => Options.StringifyNumbers -> Maybe NamingCase -> UserInfo -> (InsertQueryP1 ('Postgres pgKind), DS.Seq PG.PrepArg) -> m EncJSON execInsertQuery strfyNum tCase userInfo (u, p) = runMutation (mkMutation userInfo (iqp1Table u) (MCCheckConstraint insertCTE, p) (iqp1Output u) (iqp1AllCols u) strfyNum tCase) where insertCTE = mkInsertCTE u {- Note: [Prepared statements in Mutations] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The SQL statements we generate for mutations seem to include the actual values in the statements in some cases which pretty much makes them unfit for reuse (Handling relationships in the returning clause is the source of this complexity). Further, `PGConn` has an internal cache which maps a statement to a 'prepared statement id' on Postgres. As we prepare more and more single-use SQL statements we end up leaking memory both on graphql-engine and Postgres till the connection is closed. So a simpler but very crude fix is to not use prepared statements for mutations. The performance of insert mutations shouldn't be affected but updates and delete mutations with complex boolean conditions **might** see some degradation. -} mutateAndSel :: forall pgKind m. ( MonadTx m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => Mutation ('Postgres pgKind) -> m EncJSON mutateAndSel (Mutation qt q mutationOutput allCols strfyNum tCase) = do -- Perform mutation and fetch unique columns MutateResp _ columnVals <- liftTx $ mutateAndFetchCols qt allCols q strfyNum tCase select <- mkSelectExpFromColumnValues qt allCols columnVals -- Perform select query and fetch returning fields executeMutationOutputQuery qt allCols Nothing (MCSelectValues select) mutationOutput strfyNum tCase [] withCheckPermission :: (MonadError QErr m) => m (a, Bool) -> m a withCheckPermission sqlTx = do (rawResponse, checkConstraint) <- sqlTx unless checkConstraint $ throw400 PermissionError $ "check constraint of an insert/update permission has failed" pure rawResponse executeMutationOutputQuery :: forall pgKind m. ( MonadTx m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => QualifiedTable -> [ColumnInfo ('Postgres pgKind)] -> Maybe Int -> MutationCTE -> MutationOutput ('Postgres pgKind) -> Options.StringifyNumbers -> Maybe NamingCase -> -- | Prepared params [PG.PrepArg] -> m EncJSON executeMutationOutputQuery qt allCols preCalAffRows cte mutOutput strfyNum tCase prepArgs = do queryTags <- ask let queryTx :: PG.FromRes a => m a queryTx = do let selectWith = mkMutationOutputExp qt allCols preCalAffRows cte mutOutput strfyNum tCase query = toQuery selectWith queryWithQueryTags = query {PG.getQueryText = (PG.getQueryText query) <> (_unQueryTagsComment queryTags)} -- See Note [Prepared statements in Mutations] liftTx (PG.rawQE dmlTxErrorHandler queryWithQueryTags prepArgs False) if checkPermissionRequired cte then withCheckPermission $ PG.getRow <$> queryTx else runIdentity . PG.getRow <$> queryTx mutateAndFetchCols :: forall pgKind. (Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind) => QualifiedTable -> [ColumnInfo ('Postgres pgKind)] -> (MutationCTE, DS.Seq PG.PrepArg) -> Options.StringifyNumbers -> Maybe NamingCase -> PG.TxE QErr (MutateResp ('Postgres pgKind) TxtEncodedVal) mutateAndFetchCols qt cols (cte, p) strfyNum tCase = do let mutationTx :: PG.FromRes a => PG.TxE QErr a mutationTx = -- See Note [Prepared statements in Mutations] PG.rawQE dmlTxErrorHandler sqlText (toList p) False if checkPermissionRequired cte then withCheckPermission $ (first PG.getViaJSON . PG.getRow) <$> mutationTx else (PG.getViaJSON . runIdentity . PG.getRow) <$> mutationTx where rawAlias = S.mkTableAlias $ "mutres__" <> qualifiedObjectToText qt rawIdentifier = S.tableAliasToIdentifier rawAlias tabFrom = FromIdentifier $ FIIdentifier (unTableIdentifier rawIdentifier) tabPerm = TablePerm annBoolExpTrue Nothing selFlds = flip map cols $ \ci -> (fromCol @('Postgres pgKind) $ ciColumn ci, mkAnnColumnFieldAsText ci) sqlText = toQuery selectWith select = S.mkSelect { S.selExtr = S.Extractor extrExp Nothing : bool [] [S.Extractor checkErrExp Nothing] (checkPermissionRequired cte) } selectWith = S.SelectWith ( [(rawAlias, getMutationCTE cte)] <> customSQLToTopLevelCTEs customSQLCTEs ) select checkErrExp = mkCheckErrorExp rawIdentifier extrExp = S.applyJsonBuildObj [ S.SELit "affected_rows", affRowsSel, S.SELit "returning_columns", colSel ] affRowsSel = S.SESelect $ S.mkSelect { S.selExtr = [S.Extractor S.countStar Nothing], S.selFrom = Just $ S.FromExp [S.FIIdentifier rawIdentifier] } (colSel, customSQLCTEs) = runWriter $ S.SESelect <$> mkSQLSelect JASMultipleRows ( AnnSelectG selFlds tabFrom tabPerm noSelectArgs strfyNum tCase )