{-# LANGUAGE ApplicativeDo #-} {-# OPTIONS_GHC -fno-warn-orphans #-} module Hasura.Backends.MSSQL.Instances.Schema () where import Data.Has import Data.HashMap.Strict qualified as Map import Data.List.NonEmpty qualified as NE import Data.Text.Encoding (encodeUtf8) import Data.Text.Extended import Database.ODBC.SQLServer qualified as ODBC import Hasura.Backends.MSSQL.Types.Insert (MSSQLExtraInsertData (..)) import Hasura.Backends.MSSQL.Types.Internal qualified as MSSQL import Hasura.Backends.MSSQL.Types.Update (BackendUpdate (..), UpdateOperator (..)) import Hasura.Base.Error import Hasura.GraphQL.Parser hiding (EnumValueInfo, field) import Hasura.GraphQL.Parser qualified as P import Hasura.GraphQL.Parser.Internal.Parser hiding (field) import Hasura.GraphQL.Schema.Backend import Hasura.GraphQL.Schema.BoolExp import Hasura.GraphQL.Schema.Build qualified as GSB import Hasura.GraphQL.Schema.Common import Hasura.GraphQL.Schema.Select import Hasura.GraphQL.Schema.Update qualified as SU import Hasura.Prelude import Hasura.RQL.IR import Hasura.RQL.IR.Insert qualified as IR import Hasura.RQL.IR.Select qualified as IR import Hasura.RQL.Types import Language.GraphQL.Draft.Syntax qualified as G ---------------------------------------------------------------- -- BackendSchema instance instance BackendSchema 'MSSQL where -- top level parsers buildTableQueryFields = GSB.buildTableQueryFields buildTableRelayQueryFields = msBuildTableRelayQueryFields buildTableInsertMutationFields = msBuildTableInsertMutationFields buildTableDeleteMutationFields = GSB.buildTableDeleteMutationFields buildTableUpdateMutationFields = \_ _ _ _ _ _ -> return [] -- see _msBuildTableUpdateMutationFields. buildFunctionQueryFields = msBuildFunctionQueryFields buildFunctionRelayQueryFields = msBuildFunctionRelayQueryFields buildFunctionMutationFields = msBuildFunctionMutationFields -- backend extensions relayExtension = Nothing nodesAggExtension = Just () -- table arguments tableArguments = msTableArgs mkRelationshipParser = msMkRelationshipParser -- individual components columnParser = msColumnParser jsonPathArg = msJsonPathArg orderByOperators = msOrderByOperators comparisonExps = msComparisonExps mkCountType = msMkCountType aggregateOrderByCountType = MSSQL.IntegerType computedField = msComputedField node = msNode -- SQL literals columnDefaultValue = msColumnDefaultValue -- | MSSQL only supports inserts into tables that have a primary key defined. supportsInserts :: TableInfo 'MSSQL -> Bool supportsInserts = isJust . _tciPrimaryKey . _tiCoreInfo ---------------------------------------------------------------- -- Top level parsers msBuildTableRelayQueryFields :: MonadBuildSchema 'MSSQL r m n => SourceName -> TableName 'MSSQL -> TableInfo 'MSSQL -> G.Name -> NESeq (ColumnInfo 'MSSQL) -> SelPermInfo 'MSSQL -> m [a] msBuildTableRelayQueryFields _sourceName _tableName _tableInfo _gqlName _pkeyColumns _selPerms = pure [] msBuildTableInsertMutationFields :: forall r m n. MonadBuildSchema 'MSSQL r m n => SourceName -> TableName 'MSSQL -> TableInfo 'MSSQL -> G.Name -> InsPermInfo 'MSSQL -> Maybe (SelPermInfo 'MSSQL) -> Maybe (UpdPermInfo 'MSSQL) -> m [FieldParser n (AnnInsert 'MSSQL (RemoteRelationshipField UnpreparedValue) (UnpreparedValue 'MSSQL))] msBuildTableInsertMutationFields sourceName tableName tableInfo gqlName insPerms mSelPerms mUpdPerms | supportsInserts tableInfo = GSB.buildTableInsertMutationFields (\_sourceName tableInfo' _selectPermMaybe _updPermMaybe -> return (pure $ getExtraInsertData tableInfo')) sourceName tableName tableInfo gqlName insPerms mSelPerms mUpdPerms | otherwise = return [] getExtraInsertData :: TableInfo 'MSSQL -> MSSQLExtraInsertData v getExtraInsertData tableInfo = let pkeyColumns = fmap (map pgiColumn . toList . _pkColumns) . _tciPrimaryKey . _tiCoreInfo $ tableInfo identityColumns = _tciExtraTableMetadata $ _tiCoreInfo tableInfo in MSSQLExtraInsertData (fromMaybe [] pkeyColumns) identityColumns -- Replace the instance implementation of 'buildTableUpdateMutationFields' with -- the below when we have an executable implementation of updates, in order to -- enable the update schema. _msBuildTableUpdateMutationFields :: MonadBuildSchema 'MSSQL r m n => SourceName -> TableName 'MSSQL -> TableInfo 'MSSQL -> G.Name -> UpdPermInfo 'MSSQL -> Maybe (SelPermInfo 'MSSQL) -> m [FieldParser n (AnnotatedUpdateG 'MSSQL (RemoteRelationshipField UnpreparedValue) (UnpreparedValue 'MSSQL))] _msBuildTableUpdateMutationFields = GSB.buildTableUpdateMutationFields ( \ti updPerms -> fmap BackendUpdate <$> SU.buildUpdateOperators (UpdateSet <$> SU.presetColumns updPerms) [ UpdateSet <$> SU.setOp, UpdateInc <$> SU.incOp ] ti updPerms ) msBuildTableDeleteMutationFields :: MonadBuildSchema 'MSSQL r m n => SourceName -> TableName 'MSSQL -> TableInfo 'MSSQL -> G.Name -> DelPermInfo 'MSSQL -> Maybe (SelPermInfo 'MSSQL) -> m [a] msBuildTableDeleteMutationFields _sourceName _tableName _tableInfo _gqlName _delPerns _selPerms = pure [] msBuildFunctionQueryFields :: MonadBuildSchema 'MSSQL r m n => SourceName -> FunctionName 'MSSQL -> FunctionInfo 'MSSQL -> TableName 'MSSQL -> SelPermInfo 'MSSQL -> m [a] msBuildFunctionQueryFields _ _ _ _ _ = pure [] msBuildFunctionRelayQueryFields :: MonadBuildSchema 'MSSQL r m n => SourceName -> FunctionName 'MSSQL -> FunctionInfo 'MSSQL -> TableName 'MSSQL -> NESeq (ColumnInfo 'MSSQL) -> SelPermInfo 'MSSQL -> m [a] msBuildFunctionRelayQueryFields _sourceName _functionName _functionInfo _tableName _pkeyColumns _selPerms = pure [] msBuildFunctionMutationFields :: MonadBuildSchema 'MSSQL r m n => SourceName -> FunctionName 'MSSQL -> FunctionInfo 'MSSQL -> TableName 'MSSQL -> SelPermInfo 'MSSQL -> m [a] msBuildFunctionMutationFields _ _ _ _ _ = pure [] ---------------------------------------------------------------- -- Table arguments msTableArgs :: forall r m n. MonadBuildSchema 'MSSQL r m n => SourceName -> TableInfo 'MSSQL -> SelPermInfo 'MSSQL -> m (InputFieldsParser n (IR.SelectArgsG 'MSSQL (UnpreparedValue 'MSSQL))) msTableArgs sourceName tableInfo selectPermissions = do whereParser <- tableWhereArg sourceName tableInfo selectPermissions orderByParser <- tableOrderByArg sourceName tableInfo selectPermissions pure do whereArg <- whereParser orderByArg <- orderByParser limitArg <- tableLimitArg offsetArg <- tableOffsetArg pure $ IR.SelectArgs { IR._saWhere = whereArg, IR._saOrderBy = orderByArg, IR._saLimit = limitArg, IR._saOffset = offsetArg, -- not supported on MSSQL for now IR._saDistinct = Nothing } msMkRelationshipParser :: forall r m n. MonadBuildSchema 'MSSQL r m n => SourceName -> RelInfo 'MSSQL -> m (Maybe (InputFieldsParser n (Maybe (IR.AnnotatedInsert 'MSSQL (UnpreparedValue 'MSSQL))))) msMkRelationshipParser _sourceName _relationshipInfo = do -- When we support nested inserts, we also need to ensure we limit ourselves -- to inserting into tables whch supports inserts: {- import Hasura.GraphQL.Schema.Mutation qualified as GSB runMaybeT $ do let otherTableName = riRTable relationshipInfo otherTableInfo <- lift $ askTableInfo sourceName otherTableName guard (supportsInserts otherTableInfo) -} return Nothing ---------------------------------------------------------------- -- Individual components msColumnParser :: (MonadSchema n m, MonadError QErr m, MonadReader r m, Has MkTypename r) => ColumnType 'MSSQL -> G.Nullability -> m (Parser 'Both n (ValueWithOrigin (ColumnValue 'MSSQL))) msColumnParser columnType (G.Nullability isNullable) = peelWithOrigin . fmap (ColumnValue columnType) <$> case columnType of -- TODO: the mapping here is not consistent with mkMSSQLScalarTypeName. For -- example, exposing all the float types as a GraphQL Float type is -- incorrect, similarly exposing all the integer types as a GraphQL Int ColumnScalar scalarType -> possiblyNullable scalarType <$> case scalarType of -- bytestring MSSQL.CharType -> pure $ ODBC.ByteStringValue . encodeUtf8 <$> P.string MSSQL.VarcharType -> pure $ ODBC.ByteStringValue . encodeUtf8 <$> P.string -- text MSSQL.WcharType -> pure $ ODBC.TextValue <$> P.string MSSQL.WvarcharType -> pure $ ODBC.TextValue <$> P.string MSSQL.WtextType -> pure $ ODBC.TextValue <$> P.string MSSQL.TextType -> pure $ ODBC.TextValue <$> P.string -- integer MSSQL.IntegerType -> pure $ ODBC.IntValue . fromIntegral <$> P.int MSSQL.SmallintType -> pure $ ODBC.IntValue . fromIntegral <$> P.int MSSQL.BigintType -> pure $ ODBC.IntValue . fromIntegral <$> P.int MSSQL.TinyintType -> pure $ ODBC.IntValue . fromIntegral <$> P.int -- float MSSQL.NumericType -> pure $ ODBC.DoubleValue <$> P.float MSSQL.DecimalType -> pure $ ODBC.DoubleValue <$> P.float MSSQL.FloatType -> pure $ ODBC.DoubleValue <$> P.float MSSQL.RealType -> pure $ ODBC.DoubleValue <$> P.float -- boolean MSSQL.BitType -> pure $ ODBC.BoolValue <$> P.boolean _ -> do name <- MSSQL.mkMSSQLScalarTypeName scalarType let schemaType = P.NonNullable $ P.TNamed $ P.Definition name Nothing P.TIScalar pure $ Parser { pType = schemaType, pParser = valueToJSON (P.toGraphQLType schemaType) >=> either (parseErrorWith ParseFailed . qeError) pure . (MSSQL.parseScalarValue scalarType) } ColumnEnumReference (EnumReference tableName enumValues) -> case nonEmpty (Map.toList enumValues) of Just enumValuesList -> do tableGQLName <- tableGraphQLName @'MSSQL tableName `onLeft` throwError enumName <- P.mkTypename $ tableGQLName <> $$(G.litName "_enum") pure $ possiblyNullable MSSQL.VarcharType $ P.enum enumName Nothing (mkEnumValue <$> enumValuesList) Nothing -> throw400 ValidationFailed "empty enum values" where possiblyNullable _scalarType | isNullable = fmap (fromMaybe ODBC.NullValue) . P.nullable | otherwise = id mkEnumValue :: (EnumValue, EnumValueInfo) -> (P.Definition P.EnumValueInfo, ScalarValue 'MSSQL) mkEnumValue (EnumValue value, EnumValueInfo description) = ( P.Definition value (G.Description <$> description) P.EnumValueInfo, ODBC.TextValue $ G.unName value ) msJsonPathArg :: MonadParse n => ColumnType 'MSSQL -> InputFieldsParser n (Maybe (IR.ColumnOp 'MSSQL)) msJsonPathArg _columnType = pure Nothing msOrderByOperators :: NonEmpty ( Definition P.EnumValueInfo, (BasicOrderType 'MSSQL, NullsOrderType 'MSSQL) ) msOrderByOperators = NE.fromList [ ( define $$(G.litName "asc") "in ascending order, nulls first", (MSSQL.AscOrder, MSSQL.NullsFirst) ), ( define $$(G.litName "asc_nulls_first") "in ascending order, nulls first", (MSSQL.AscOrder, MSSQL.NullsFirst) ), ( define $$(G.litName "asc_nulls_last") "in ascending order, nulls last", (MSSQL.AscOrder, MSSQL.NullsLast) ), ( define $$(G.litName "desc") "in descending order, nulls last", (MSSQL.DescOrder, MSSQL.NullsLast) ), ( define $$(G.litName "desc_nulls_first") "in descending order, nulls first", (MSSQL.DescOrder, MSSQL.NullsFirst) ), ( define $$(G.litName "desc_nulls_last") "in descending order, nulls last", (MSSQL.DescOrder, MSSQL.NullsLast) ) ] where define name desc = P.Definition name (Just desc) P.EnumValueInfo msComparisonExps :: forall m n r. ( BackendSchema 'MSSQL, MonadSchema n m, MonadError QErr m, MonadReader r m, Has QueryContext r, Has MkTypename r ) => ColumnType 'MSSQL -> m (Parser 'Input n [ComparisonExp 'MSSQL]) msComparisonExps = P.memoize 'comparisonExps \columnType -> do -- see Note [Columns in comparison expression are never nullable] collapseIfNull <- asks $ qcDangerousBooleanCollapse . getter -- parsers used for individual values typedParser <- columnParser columnType (G.Nullability False) nullableTextParser <- columnParser (ColumnScalar @'MSSQL MSSQL.VarcharType) (G.Nullability True) textParser <- columnParser (ColumnScalar @'MSSQL MSSQL.VarcharType) (G.Nullability False) let columnListParser = fmap openValueOrigin <$> P.list typedParser textListParser = fmap openValueOrigin <$> P.list textParser -- field info let name = P.getName typedParser <> $$(G.litName "_MSSQL_comparison_exp") desc = G.Description $ "Boolean expression to compare columns of type " <> P.getName typedParser <<> ". All fields are combined with logical 'AND'." pure $ P.object name (Just desc) $ fmap catMaybes $ sequenceA $ concat [ -- Common ops for all types equalityOperators collapseIfNull (mkParameter <$> typedParser) (mkListLiteral <$> columnListParser), comparisonOperators collapseIfNull (mkParameter <$> typedParser), -- Ops for String like types guard (isScalarColumnWhere (`elem` MSSQL.stringTypes) columnType) *> [ P.fieldOptional $$(G.litName "_like") (Just "does the column match the given pattern") (ALIKE . mkParameter <$> typedParser), P.fieldOptional $$(G.litName "_nlike") (Just "does the column NOT match the given pattern") (ANLIKE . mkParameter <$> typedParser) ], -- Ops for Geometry/Geography types guard (isScalarColumnWhere (`elem` MSSQL.geoTypes) columnType) *> [ P.fieldOptional $$(G.litName "_st_contains") (Just "does the column contain the given value") (ABackendSpecific . MSSQL.ASTContains . mkParameter <$> typedParser), P.fieldOptional $$(G.litName "_st_equals") (Just "is the column equal to given value (directionality is ignored)") (ABackendSpecific . MSSQL.ASTEquals . mkParameter <$> typedParser), P.fieldOptional $$(G.litName "_st_intersects") (Just "does the column spatially intersect the given value") (ABackendSpecific . MSSQL.ASTIntersects . mkParameter <$> typedParser), P.fieldOptional $$(G.litName "_st_overlaps") (Just "does the column 'spatially overlap' (intersect but not completely contain) the given value") (ABackendSpecific . MSSQL.ASTOverlaps . mkParameter <$> typedParser), P.fieldOptional $$(G.litName "_st_within") (Just "is the column contained in the given value") (ABackendSpecific . MSSQL.ASTWithin . mkParameter <$> typedParser) ], -- Ops for Geometry types guard (isScalarColumnWhere (MSSQL.GeometryType ==) columnType) *> [ P.fieldOptional $$(G.litName "_st_crosses") (Just "does the column cross the given geometry value") (ABackendSpecific . MSSQL.ASTCrosses . mkParameter <$> typedParser), P.fieldOptional $$(G.litName "_st_touches") (Just "does the column have at least one point in common with the given geometry value") (ABackendSpecific . MSSQL.ASTTouches . mkParameter <$> typedParser) ] ] where mkListLiteral :: [ColumnValue 'MSSQL] -> UnpreparedValue 'MSSQL mkListLiteral = P.UVLiteral . MSSQL.ListExpression . fmap (MSSQL.ValueExpression . cvValue) msMkCountType :: -- | distinct values Maybe Bool -> Maybe [Column 'MSSQL] -> CountType 'MSSQL msMkCountType _ Nothing = MSSQL.StarCountable msMkCountType (Just True) (Just cols) = maybe MSSQL.StarCountable MSSQL.DistinctCountable $ nonEmpty cols msMkCountType _ (Just cols) = maybe MSSQL.StarCountable MSSQL.NonNullFieldCountable $ nonEmpty cols -- | Computed field parser. -- Currently unsupported: returns Nothing for now. msComputedField :: MonadBuildSchema 'MSSQL r m n => SourceName -> ComputedFieldInfo 'MSSQL -> TableName 'MSSQL -> SelPermInfo 'MSSQL -> m (Maybe (FieldParser n (AnnotatedField 'MSSQL))) msComputedField _sourceName _fieldInfo _table _selectPemissions = pure Nothing -- | Remote join field parser. -- Currently unsupported: returns Nothing for now. msRemoteRelationshipField :: MonadBuildSchema 'MSSQL r m n => RemoteFieldInfo 'MSSQL -> m (Maybe [FieldParser n (AnnotatedField 'MSSQL)]) msRemoteRelationshipField _remoteFieldInfo = pure Nothing -- | The 'node' root field of a Relay request. Relay is currently unsupported on MSSQL, -- meaning this parser will never be called: any attempt to create this parser should -- therefore fail. msNode :: MonadBuildSchema 'MSSQL r m n => m ( Parser 'Output n ( HashMap (TableName 'MSSQL) ( SourceName, SourceConfig 'MSSQL, SelPermInfo 'MSSQL, PrimaryKeyColumns 'MSSQL, AnnotatedFields 'MSSQL ) ) ) msNode = throw500 "MSSQL does not support relay; `node` should never be exposed in the schema." ---------------------------------------------------------------- -- SQL literals -- FIXME: this is nonsensical for MSSQL, we'll need to adjust the corresponding mutation -- and its representation. msColumnDefaultValue :: Column 'MSSQL -> SQLExpression 'MSSQL msColumnDefaultValue = const $ MSSQL.ValueExpression ODBC.NullValue