{-# LANGUAGE ApplicativeDo #-} {-# LANGUAGE TemplateHaskellQuotes #-} module Hasura.GraphQL.Schema.Mutation ( insertIntoTable, insertOneIntoTable, deleteFromTable, deleteFromTableByPk, mkDefaultRelationshipParser, mutationSelectionSet, primaryKeysArguments, ) where import Data.HashMap.Strict qualified as Map import Data.HashSet qualified as Set import Data.Text.Extended import Hasura.GraphQL.Parser ( FieldParser, InputFieldsParser, Kind (..), Parser, UnpreparedValue (..), mkParameter, ) import Hasura.GraphQL.Parser qualified as P import Hasura.GraphQL.Parser.Class import Hasura.GraphQL.Parser.Constants qualified as G import Hasura.GraphQL.Schema.Backend import Hasura.GraphQL.Schema.BoolExp import Hasura.GraphQL.Schema.Common import Hasura.GraphQL.Schema.Select import Hasura.GraphQL.Schema.Table import Hasura.Prelude import Hasura.RQL.IR.Delete qualified as IR import Hasura.RQL.IR.Insert qualified as IR import Hasura.RQL.IR.Returning qualified as IR import Hasura.RQL.IR.Root qualified as IR import Hasura.RQL.Types hiding (askTableInfo) import Language.GraphQL.Draft.Syntax qualified as G -- insert -- | Construct the parser for a field that can be used to add several rows to a DB table. -- -- This function is used to create the insert_tablename root field. -- The field accepts the following arguments: -- - objects: the list of objects to insert into the table (see 'tableFieldsInput') -- - parser for backend-specific fields, e.g. upsert fields on_conflict or if_matched insertIntoTable :: forall b r m n. MonadBuildSchema b r m n => (SourceName -> TableInfo b -> m (InputFieldsParser n (BackendInsert b (UnpreparedValue b)))) -> Scenario -> SourceName -> -- | qualified name of the table TableInfo b -> -- | field display name G.Name -> -- | field description, if any Maybe G.Description -> m (Maybe (FieldParser n (IR.AnnotatedInsert b (IR.RemoteRelationshipField UnpreparedValue) (UnpreparedValue b)))) insertIntoTable backendInsertAction scenario sourceName tableInfo fieldName description = runMaybeT $ do let viewInfo = _tciViewInfo $ _tiCoreInfo tableInfo guard $ isMutable viIsInsertable viewInfo insertPerms <- MaybeT $ (_permIns =<<) <$> tablePermissions tableInfo -- If we're in a frontend scenario, we should not include backend_only inserts guard $ not $ scenario == Frontend && ipiBackendOnly insertPerms lift do updatePerms <- (_permUpd =<<) <$> tablePermissions tableInfo -- objects [{ ... }] objectParser <- tableFieldsInput sourceName tableInfo backendInsertParser <- backendInsertAction sourceName tableInfo -- returning clause, affected rows, etc. selectionParser <- mutationSelectionSet sourceName tableInfo let argsParser = do backendInsert <- backendInsertParser objects <- mkObjectsArg objectParser pure $ mkInsertObject objects tableInfo backendInsert insertPerms updatePerms pure $ P.subselection fieldName description argsParser selectionParser <&> \(insertObject, output) -> IR.AnnotatedInsert (G.unName fieldName) False insertObject (IR.MOutMultirowFields output) where mkObjectsArg objectParser = P.field G._objects (Just "the rows to be inserted") (P.list objectParser) -- | Variant of 'insertIntoTable' that inserts a single row. -- -- Instead of expecting a list of rows to insert in a 'objects' argument, this -- field instead expects a single 'object'. Its selection set is also slightly -- different: it only allows selecting columns from the row being inserted. insertOneIntoTable :: forall b r m n. (MonadBuildSchema b r m n) => (SourceName -> TableInfo b -> m (InputFieldsParser n (BackendInsert b (UnpreparedValue b)))) -> Scenario -> -- | source of the table SourceName -> -- | table info TableInfo b -> -- | field display name G.Name -> -- | field description, if any Maybe G.Description -> m (Maybe (FieldParser n (IR.AnnotatedInsert b (IR.RemoteRelationshipField UnpreparedValue) (UnpreparedValue b)))) insertOneIntoTable backendInsertAction scenario sourceName tableInfo fieldName description = runMaybeT do let viewInfo = _tciViewInfo $ _tiCoreInfo tableInfo guard $ isMutable viIsInsertable viewInfo insertPerms <- MaybeT $ (_permIns =<<) <$> tablePermissions tableInfo -- If we're in a frontend scenario, we should not include backend_only inserts guard $ not $ scenario == Frontend && ipiBackendOnly insertPerms selectionParser <- MaybeT $ tableSelectionSet sourceName tableInfo lift do updatePerms <- (_permUpd =<<) <$> tablePermissions tableInfo objectParser <- tableFieldsInput sourceName tableInfo backendInsertParser <- backendInsertAction sourceName tableInfo let argsParser = do backendInsert <- backendInsertParser object <- mkObjectArg objectParser pure $ mkInsertObject [object] tableInfo backendInsert insertPerms updatePerms pure $ P.subselection fieldName description argsParser selectionParser <&> \(insertObject, output) -> IR.AnnotatedInsert (G.unName fieldName) True insertObject (IR.MOutSinglerowObject output) where mkObjectArg objectParser = P.field G._object (Just "the row to be inserted") objectParser -- | Creates the parser for an input object for a row of the given table. -- -- This function creates an input object type named "tablename_insert_input" in -- the GraphQL shema, which has a field for each of the columns of that table -- that the user has insert permissions for. -- -- > { -- > insert_author ( -- > objects: [ -- > { # tableFieldsInput output -- > name: "John", -- > id:12 -- > } -- > ] ... -- > ) ... -- > } tableFieldsInput :: forall b r m n. MonadBuildSchema b r m n => SourceName -> -- | qualified name of the table TableInfo b -> m (Parser 'Input n (IR.AnnotatedInsertRow b (UnpreparedValue b))) tableFieldsInput sourceName tableInfo = memoizeOn 'tableFieldsInput (sourceName, tableName) do tableGQLName <- getTableGQLName tableInfo objectFields <- traverse mkFieldParser (Map.elems allFields) objectName <- P.mkTypename $ tableGQLName <> G.__insert_input let objectDesc = G.Description $ "input type for inserting data into table " <>> tableName pure $ P.object objectName (Just objectDesc) $ coalesceFields objectFields where allFields = _tciFieldInfoMap . _tiCoreInfo $ tableInfo tableName = tableInfoName tableInfo -- For each field, we have a Maybe parser: not all fields will be allowed -- (we don't allow insertions in computed fields for instance). Each parser -- returns a maybe value, as some of the fields may be omitted. This -- function does the necessary transformations to coalesce all of this in -- one 'InputFieldsParser'. coalesceFields :: [Maybe (InputFieldsParser n (Maybe (IR.AnnotatedInsertField b (UnpreparedValue b))))] -> InputFieldsParser n (IR.AnnotatedInsertRow b (UnpreparedValue b)) coalesceFields = fmap catMaybes . sequenceA . catMaybes mkFieldParser :: FieldInfo b -> m (Maybe (InputFieldsParser n (Maybe (IR.AnnotatedInsertField b (UnpreparedValue b))))) mkFieldParser = \case FIComputedField _ -> pure Nothing FIRemoteRelationship _ -> pure Nothing FIColumn columnInfo -> do if (_cmIsInsertable $ ciMutability columnInfo) then mkColumnParser columnInfo else pure Nothing FIRelationship relInfo -> mkRelationshipParser sourceName relInfo mkColumnParser :: ColumnInfo b -> m (Maybe (InputFieldsParser n (Maybe (IR.AnnotatedInsertField b (UnpreparedValue b))))) mkColumnParser columnInfo = runMaybeT $ do insertPerms <- MaybeT $ (_permIns =<<) <$> tablePermissions tableInfo let columnName = ciName columnInfo columnDesc = ciDescription columnInfo isAllowed = Set.member (ciColumn columnInfo) (ipiCols insertPerms) guard isAllowed fieldParser <- lift $ columnParser (ciType columnInfo) (G.Nullability $ ciIsNullable columnInfo) pure $ P.fieldOptional columnName columnDesc fieldParser `mapField` \value -> IR.AIColumn (ciColumn columnInfo, mkParameter value) mkDefaultRelationshipParser :: forall b r m n. MonadBuildSchema b r m n => (SourceName -> TableInfo b -> m (InputFieldsParser n (BackendInsert b (UnpreparedValue b)))) -> XNestedInserts b -> SourceName -> RelInfo b -> m (Maybe (InputFieldsParser n (Maybe (IR.AnnotatedInsertField b (UnpreparedValue b))))) mkDefaultRelationshipParser backendInsertAction xNestedInserts sourceName relationshipInfo = runMaybeT do let otherTableName = riRTable relationshipInfo relName = riName relationshipInfo otherTableInfo <- askTableInfo sourceName otherTableName relFieldName <- lift $ textToName $ relNameToTxt relName case riType relationshipInfo of ObjRel -> do parser <- MaybeT $ objectRelationshipInput backendInsertAction sourceName otherTableInfo pure $ P.fieldOptional relFieldName Nothing (P.nullable parser) <&> \objRelIns -> do rel <- join objRelIns Just $ IR.AIObjectRelationship xNestedInserts $ IR.RelationInsert rel relationshipInfo ArrRel -> do parser <- MaybeT $ arrayRelationshipInput backendInsertAction sourceName otherTableInfo pure $ P.fieldOptional relFieldName Nothing (P.nullable parser) <&> \arrRelIns -> do rel <- join arrRelIns guard $ not $ null $ IR._aiInsertObject rel Just $ IR.AIArrayRelationship xNestedInserts $ IR.RelationInsert rel relationshipInfo -- | Construct the parser for an input object that represents an insert through -- an object relationship. -- -- When inserting objects into tables, we allow insertions through -- relationships. This function creates the parser for an object that represents -- the insertion object across an object relationship; it is co-recursive with -- 'tableFieldsInput'. objectRelationshipInput :: forall b r m n. MonadBuildSchema b r m n => (SourceName -> TableInfo b -> m (InputFieldsParser n (BackendInsert b (UnpreparedValue b)))) -> SourceName -> TableInfo b -> m (Maybe (Parser 'Input n (IR.SingleObjectInsert b (UnpreparedValue b)))) objectRelationshipInput backendInsertAction sourceName tableInfo = runMaybeT $ do insertPerms <- MaybeT $ (_permIns =<<) <$> tablePermissions tableInfo lift $ memoizeOn 'objectRelationshipInput (sourceName, tableName) do updatePerms <- (_permUpd =<<) <$> tablePermissions tableInfo _selectPerms <- (_permSel =<<) <$> tablePermissions tableInfo tableGQLName <- getTableGQLName tableInfo objectParser <- tableFieldsInput sourceName tableInfo backendInsertParser <- backendInsertAction sourceName tableInfo inputName <- P.mkTypename $ tableGQLName <> G.__obj_rel_insert_input let objectName = G._data inputDesc = G.Description $ "input type for inserting object relation for remote table " <>> tableName inputParser = do backendInsert <- backendInsertParser object <- P.field objectName Nothing objectParser pure $ mkInsertObject (IR.Single object) tableInfo backendInsert insertPerms updatePerms pure $ P.object inputName (Just inputDesc) inputParser where tableName = tableInfoName tableInfo -- | Construct the parser for an input object that represents an insert through -- an array relationship. -- -- When inserting objects into tables, we allow insertions through -- relationships. This function creates the parser for an object that represents -- the insertion object across an array relationship; it is co-recursive with -- 'tableFieldsInput'. arrayRelationshipInput :: forall b r m n. MonadBuildSchema b r m n => (SourceName -> TableInfo b -> m (InputFieldsParser n (BackendInsert b (UnpreparedValue b)))) -> SourceName -> TableInfo b -> m (Maybe (Parser 'Input n (IR.MultiObjectInsert b (UnpreparedValue b)))) arrayRelationshipInput backendInsertAction sourceName tableInfo = runMaybeT $ do insertPerms <- MaybeT $ (_permIns =<<) <$> tablePermissions tableInfo lift $ memoizeOn 'arrayRelationshipInput (sourceName, tableName) do updatePerms <- (_permUpd =<<) <$> tablePermissions tableInfo _selectPerms <- (_permSel =<<) <$> tablePermissions tableInfo tableGQLName <- getTableGQLName tableInfo objectParser <- tableFieldsInput sourceName tableInfo backendInsertParser <- backendInsertAction sourceName tableInfo inputName <- P.mkTypename $ tableGQLName <> G.__arr_rel_insert_input let objectsName = G._data inputDesc = G.Description $ "input type for inserting array relation for remote table " <>> tableName inputParser = do backendInsert <- backendInsertParser objects <- P.field objectsName Nothing $ P.list objectParser pure $ mkInsertObject objects tableInfo backendInsert insertPerms updatePerms pure $ P.object inputName (Just inputDesc) inputParser where tableName = tableInfoName tableInfo -- | Helper function that creates an 'AnnIns' object. mkInsertObject :: forall b f. BackendSchema b => f (IR.AnnotatedInsertRow b (UnpreparedValue b)) -> TableInfo b -> BackendInsert b (UnpreparedValue b) -> InsPermInfo b -> Maybe (UpdPermInfo b) -> IR.AnnotatedInsertData b f (UnpreparedValue b) mkInsertObject objects tableInfo backendInsert insertPerms updatePerms = IR.AnnotatedInsertData { _aiInsertObject = objects, _aiTableName = table, _aiCheckCondition = (insertCheck, updateCheck), _aiTableColumns = columns, _aiPresetValues = presetValues, _aiBackendInsert = backendInsert } where table = tableInfoName tableInfo columns = tableColumns tableInfo insertCheck = fmap partialSQLExpToUnpreparedValue <$> ipiCheck insertPerms updateCheck = (fmap . fmap . fmap) partialSQLExpToUnpreparedValue $ upiCheck =<< updatePerms presetValues = partialSQLExpToUnpreparedValue <$> ipiSet insertPerms -- delete -- | Construct a root field, normally called delete_tablename, that can be used -- to delete several rows from a DB table deleteFromTable :: forall b r m n. MonadBuildSchema b r m n => -- | table source SourceName -> -- | table info TableInfo b -> -- | field display name G.Name -> -- | field description, if any Maybe G.Description -> m (Maybe (FieldParser n (IR.AnnDelG b (IR.RemoteRelationshipField UnpreparedValue) (UnpreparedValue b)))) deleteFromTable sourceName tableInfo fieldName description = runMaybeT $ do let viewInfo = _tciViewInfo $ _tiCoreInfo tableInfo guard $ isMutable viIsInsertable viewInfo deletePerms <- MaybeT $ (_permDel =<<) <$> tablePermissions tableInfo lift do let whereName = G._where whereDesc = "filter the rows which have to be deleted" whereArg <- P.field whereName (Just whereDesc) <$> boolExp sourceName tableInfo selection <- mutationSelectionSet sourceName tableInfo let columns = tableColumns tableInfo pure $ P.subselection fieldName description whereArg selection <&> mkDeleteObject (tableInfoName tableInfo) columns deletePerms . fmap IR.MOutMultirowFields -- | Construct a root field, normally called delete_tablename_by_pk, that can be used to delete an -- individual rows from a DB table, specified by primary key. Select permissions are required, as -- the user must be allowed to access all the primary keys of the table. deleteFromTableByPk :: forall b r m n. MonadBuildSchema b r m n => -- | table source SourceName -> -- | table info TableInfo b -> -- | field display name G.Name -> -- | field description, if any Maybe G.Description -> m (Maybe (FieldParser n (IR.AnnDelG b (IR.RemoteRelationshipField UnpreparedValue) (UnpreparedValue b)))) deleteFromTableByPk sourceName tableInfo fieldName description = runMaybeT $ do let viewInfo = _tciViewInfo $ _tiCoreInfo tableInfo guard $ isMutable viIsInsertable viewInfo pkArgs <- MaybeT $ primaryKeysArguments tableInfo deletePerms <- MaybeT $ (_permDel =<<) <$> tablePermissions tableInfo selection <- MaybeT $ tableSelectionSet sourceName tableInfo let columns = tableColumns tableInfo pure $ P.subselection fieldName description pkArgs selection <&> mkDeleteObject (tableInfoName tableInfo) columns deletePerms . fmap IR.MOutSinglerowObject mkDeleteObject :: Backend b => TableName b -> [ColumnInfo b] -> DelPermInfo b -> (AnnBoolExp b (UnpreparedValue b), IR.MutationOutputG b (IR.RemoteRelationshipField UnpreparedValue) (UnpreparedValue b)) -> IR.AnnDelG b (IR.RemoteRelationshipField UnpreparedValue) (UnpreparedValue b) mkDeleteObject table columns deletePerms (whereExp, mutationOutput) = IR.AnnDel { IR._adTable = table, IR._adWhere = (permissionFilter, whereExp), IR._adOutput = mutationOutput, IR._adAllCols = columns } where permissionFilter = fmap partialSQLExpToUnpreparedValue <$> dpiFilter deletePerms -- common -- | All mutations allow returning results, such as what the updated database -- rows look like. This parser allows a query to specify what data to fetch. mutationSelectionSet :: forall b r m n. MonadBuildSchema b r m n => SourceName -> TableInfo b -> m (Parser 'Output n (IR.MutFldsG b (IR.RemoteRelationshipField UnpreparedValue) (UnpreparedValue b))) mutationSelectionSet sourceName tableInfo = memoizeOn 'mutationSelectionSet (sourceName, tableName) do tableGQLName <- getTableGQLName tableInfo returning <- runMaybeT do _permissions <- MaybeT $ tableSelectPermissions tableInfo tableSet <- MaybeT $ tableSelectionList sourceName tableInfo let returningName = G._returning returningDesc = "data from the rows affected by the mutation" pure $ IR.MRet <$> P.subselection_ returningName (Just returningDesc) tableSet selectionName <- P.mkTypename $ tableGQLName <> G.__mutation_response let affectedRowsName = G._affected_rows affectedRowsDesc = "number of rows affected by the mutation" selectionDesc = G.Description $ "response of any mutation on the table " <>> tableName selectionFields = catMaybes [ Just $ IR.MCount <$ P.selection_ affectedRowsName (Just affectedRowsDesc) P.int, returning ] pure $ P.selectionSet selectionName (Just selectionDesc) selectionFields <&> parsedSelectionsToFields IR.MExp where tableName = tableInfoName tableInfo -- | How to specify a database row by primary key. -- -- This will give @Nothing@ when either there are no primary keys defined for -- the table or when the given permissions do not permit selecting from all the -- columns that make up the key. primaryKeysArguments :: forall b r m n. MonadBuildSchema b r m n => TableInfo b -> m (Maybe (InputFieldsParser n (AnnBoolExp b (UnpreparedValue b)))) primaryKeysArguments tableInfo = runMaybeT $ do selectPerms <- MaybeT $ tableSelectPermissions tableInfo primaryKeys <- hoistMaybe $ _tciPrimaryKey . _tiCoreInfo $ tableInfo let columns = _pkColumns primaryKeys guard $ all (\c -> ciColumn c `Map.member` spiCols selectPerms) columns lift $ fmap (BoolAnd . toList) . sequenceA <$> for columns \columnInfo -> do field <- columnParser (ciType columnInfo) (G.Nullability False) pure $ BoolFld . AVColumn columnInfo . pure . AEQ True . mkParameter <$> P.field (ciName columnInfo) (ciDescription columnInfo) field