{-# LANGUAGE UndecidableInstances #-} module Hasura.RQL.DDL.Permission.Internal ( CreatePerm (..), DropPerm (..), permissionIsDefined, assertPermDefined, interpColSpec, getDepHeadersFromVal, getDependentHeaders, annBoolExp, procBoolExp, procLogicalModelBoolExp, ) where import Control.Lens hiding ((.=)) import Data.Aeson.KeyMap qualified as KM import Data.Aeson.Types import Data.HashMap.Strict qualified as HashMap import Data.HashSet qualified as Set import Data.Sequence qualified as Seq import Data.Text qualified as T import Data.Text.Extended import Hasura.Base.Error import Hasura.LogicalModel.Types (LogicalModelName) import Hasura.Prelude import Hasura.RQL.IR.BoolExp import Hasura.RQL.Types.Backend import Hasura.RQL.Types.BoolExp import Hasura.RQL.Types.Column (ColumnReference (ColumnReferenceColumn)) import Hasura.RQL.Types.Common import Hasura.RQL.Types.Metadata.Backend import Hasura.RQL.Types.Permission import Hasura.RQL.Types.Relationships.Local import Hasura.RQL.Types.Roles (RoleName) import Hasura.RQL.Types.SchemaCache import Hasura.RQL.Types.SchemaCacheTypes import Hasura.RQL.Types.Table import Hasura.Server.Utils -- | Intrepet a 'PermColSpec' column specification, which can either refer to a -- list of named columns or all columns. interpColSpec :: [Column b] -> PermColSpec b -> [Column b] interpColSpec _ (PCCols cols) = cols interpColSpec allColumns PCStar = allColumns permissionIsDefined :: PermType -> RolePermInfo backend -> Bool permissionIsDefined pt rpi = isJust case pt of PTSelect -> rpi ^. permSel $> () PTInsert -> rpi ^. permIns $> () PTUpdate -> rpi ^. permUpd $> () PTDelete -> rpi ^. permDel $> () assertPermDefined :: (Backend backend, MonadError QErr m) => RoleName -> PermType -> TableInfo backend -> m () assertPermDefined role pt tableInfo = unless (any (permissionIsDefined pt) rpi) $ throw400 PermissionDenied $ "'" <> tshow pt <> "'" <> " permission on " <> tableInfoName tableInfo <<> " for role " <> role <<> " does not exist" where rpi = HashMap.lookup role $ _tiRolePermInfoMap tableInfo newtype CreatePerm a b = CreatePerm (WithTable b (PermDef b a)) deriving instance (Backend b, FromJSON (PermDef b a)) => FromJSON (CreatePerm a b) data CreatePermP1Res a = CreatePermP1Res { cprInfo :: a, cprDeps :: [SchemaDependency] } deriving (Show, Eq) procBoolExp :: ( QErrM m, TableCoreInfoRM b m, BackendMetadata b, GetAggregationPredicatesDeps b ) => SourceName -> TableName b -> FieldInfoMap (FieldInfo b) -> BoolExp b -> m (AnnBoolExpPartialSQL b, Seq SchemaDependency) procBoolExp source tn fieldInfoMap be = do let rhsParser = BoolExpRHSParser parseCollectableType PSESession rootFieldInfoMap <- fmap _tciFieldInfoMap $ lookupTableCoreInfo tn `onNothingM` throw500 ("unexpected: " <> tn <<> " doesn't exist") abe <- annBoolExp rhsParser rootFieldInfoMap fieldInfoMap $ unBoolExp be let deps = getBoolExpDeps source tn abe return (abe, Seq.fromList deps) -- | Interpret a 'BoolExp' into an 'AnnBoolExp', collecting any dependencies as -- we go. At the moment, the only dependencies we're likely to encounter are -- independent dependencies on other tables. For example, "this user can only -- select from this logical model if their ID is in the @allowed_users@ table". procLogicalModelBoolExp :: forall b m. ( QErrM m, TableCoreInfoRM b m, BackendMetadata b, GetAggregationPredicatesDeps b ) => SourceName -> LogicalModelName -> FieldInfoMap (FieldInfo b) -> BoolExp b -> m (AnnBoolExpPartialSQL b, Seq SchemaDependency) procLogicalModelBoolExp source lmn fieldInfoMap be = do let -- The parser for the "right hand side" of operations. We use @rhsParser@ -- as the name here for ease of grepping, though it's maybe a bit vague. -- More specifically, if we think of an operation that combines a field -- (such as those in tables or native queries) on the /left/ with a value -- or session variable on the /right/, this is a parser for the latter. rhsParser :: BoolExpRHSParser b m (PartialSQLExp b) rhsParser = BoolExpRHSParser parseCollectableType PSESession -- In Native Queries, there are no relationships (unlike tables, where one -- table can reference another). This means that our root fieldInfoMap is -- always going to be the same as our current fieldInfoMap, so we just pass -- the same one in twice. abe <- annBoolExp rhsParser fieldInfoMap fieldInfoMap (unBoolExp be) let -- What dependencies do we have on the schema cache in order to process -- this boolean expression? This dependency system is explained more -- thoroughly in the 'buildLogicalModelSelPermInfo' inline comments. deps :: [SchemaDependency] deps = getLogicalModelBoolExpDeps source lmn abe return (abe, Seq.fromList deps) annBoolExp :: (QErrM m, TableCoreInfoRM b m, BackendMetadata b) => BoolExpRHSParser b m v -> FieldInfoMap (FieldInfo b) -> FieldInfoMap (FieldInfo b) -> GBoolExp b ColExp -> m (AnnBoolExp b v) annBoolExp rhsParser rootFieldInfoMap fim boolExp = case boolExp of BoolAnd exps -> BoolAnd <$> procExps exps BoolOr exps -> BoolOr <$> procExps exps BoolNot e -> BoolNot <$> annBoolExp rhsParser rootFieldInfoMap fim e BoolExists (GExists refqt whereExp) -> withPathK "_exists" $ do refFields <- withPathK "_table" $ askFieldInfoMapSource refqt annWhereExp <- withPathK "_where" $ annBoolExp rhsParser rootFieldInfoMap refFields whereExp return $ BoolExists $ GExists refqt annWhereExp BoolField fld -> BoolField <$> annColExp rhsParser rootFieldInfoMap fim fld where procExps = mapM (annBoolExp rhsParser rootFieldInfoMap fim) annColExp :: (QErrM m, TableCoreInfoRM b m, BackendMetadata b) => BoolExpRHSParser b m v -> FieldInfoMap (FieldInfo b) -> FieldInfoMap (FieldInfo b) -> ColExp -> m (AnnBoolExpFld b v) annColExp rhsParser rootFieldInfoMap colInfoMap (ColExp fieldName colVal) = do colInfo <- askFieldInfo colInfoMap fieldName case colInfo of FIColumn pgi -> AVColumn pgi <$> parseBoolExpOperations (_berpValueParser rhsParser) rootFieldInfoMap colInfoMap (ColumnReferenceColumn pgi) colVal FINestedObject {} -> throw400 NotSupported "nested object not supported" FIRelationship relInfo -> do relBoolExp <- decodeValue colVal relFieldInfoMap <- askFieldInfoMapSource $ riRTable relInfo annRelBoolExp <- annBoolExp rhsParser rootFieldInfoMap relFieldInfoMap $ unBoolExp relBoolExp return $ AVRelationship relInfo ( RelationshipFilters { -- Note that we do not include the permissions of the target table, since -- those only apply to GraphQL queries. rfTargetTablePermissions = BoolAnd [], rfFilter = annRelBoolExp } ) FIComputedField computedFieldInfo -> AVComputedField <$> buildComputedFieldBooleanExp (BoolExpResolver annBoolExp) rhsParser rootFieldInfoMap colInfoMap computedFieldInfo colVal -- Using remote fields in the boolean expression is not supported. FIRemoteRelationship {} -> throw400 UnexpectedPayload "remote field unsupported" getDepHeadersFromVal :: Value -> [Text] getDepHeadersFromVal val = case val of Object o -> parseObject o _ -> parseOnlyString val where parseOnlyString v = case v of (String t) | isSessionVariable t -> [T.toLower t] | isReqUserId t -> [userIdHeader] | otherwise -> [] _ -> [] parseObject o = concatMap getDepHeadersFromVal (KM.elems o) getDependentHeaders :: BoolExp b -> HashSet Text getDependentHeaders (BoolExp boolExp) = Set.fromList $ flip foldMap boolExp $ \(ColExp _ v) -> getDepHeadersFromVal v data DropPerm b = DropPerm { dipSource :: SourceName, dipTable :: TableName b, dipRole :: RoleName } instance (Backend b) => FromJSON (DropPerm b) where parseJSON = withObject "DropPerm" $ \o -> DropPerm <$> o .:? "source" .!= defaultSource <*> o .: "table" <*> o .: "role"