module Hasura.RQL.DML.Internal where -- ( mkAdminRolePermInfo -- , SessVarBldr -- ) where import Hasura.Prelude import qualified Data.HashMap.Strict as M import qualified Data.HashSet as HS import qualified Data.Sequence as DS import qualified Data.Text as T import qualified Database.PG.Query as Q import Control.Lens import Data.Aeson.Types import Data.Text.Extended import qualified Hasura.Backends.Postgres.SQL.DML as S import Hasura.Backends.Postgres.SQL.Error import Hasura.Backends.Postgres.SQL.Types hiding (TableName) import Hasura.Backends.Postgres.SQL.Value import Hasura.Backends.Postgres.Translate.BoolExp import Hasura.Backends.Postgres.Translate.Column import Hasura.Backends.Postgres.Types.Column import Hasura.Base.Error import Hasura.RQL.Types import Hasura.SQL.Types import Hasura.Session newtype DMLP1T m a = DMLP1T { unDMLP1T :: StateT (DS.Seq Q.PrepArg) m a } deriving ( Functor, Applicative, Monad, MonadTrans , MonadState (DS.Seq Q.PrepArg), MonadError e , SourceM, TableCoreInfoRM b, TableInfoRM b, CacheRM, UserInfoM, HasServerConfigCtx ) runDMLP1T :: DMLP1T m a -> m (a, DS.Seq Q.PrepArg) runDMLP1T = flip runStateT DS.empty . unDMLP1T mkAdminRolePermInfo :: Backend b => TableCoreInfo b -> RolePermInfo b mkAdminRolePermInfo ti = RolePermInfo (Just i) (Just s) (Just u) (Just d) where fields = _tciFieldInfoMap ti pgCols = map pgiColumn $ getCols fields pgColsWithFilter = M.fromList $ map (, Nothing) pgCols scalarComputedFields = HS.fromList $ map _cfiName $ onlyScalarComputedFields $ getComputedFieldInfos fields scalarComputedFields' = HS.toMap scalarComputedFields $> Nothing tn = _tciName ti i = InsPermInfo (HS.fromList pgCols) annBoolExpTrue M.empty False [] s = SelPermInfo pgColsWithFilter scalarComputedFields' annBoolExpTrue Nothing True [] u = UpdPermInfo (HS.fromList pgCols) tn annBoolExpTrue Nothing M.empty [] d = DelPermInfo tn annBoolExpTrue [] askPermInfo' :: (UserInfoM m, Backend b) => PermAccessor b c -> TableInfo b -> m (Maybe c) askPermInfo' pa tableInfo = do role <- askCurRole return $ getPermInfoMaybe role pa tableInfo getPermInfoMaybe :: (Backend b) => RoleName -> PermAccessor b c -> TableInfo b -> Maybe c getPermInfoMaybe role pa tableInfo = getRolePermInfo role tableInfo >>= (^. permAccToLens pa) getRolePermInfo :: Backend b => RoleName -> TableInfo b -> Maybe (RolePermInfo b) getRolePermInfo role tableInfo | role == adminRoleName = Just $ mkAdminRolePermInfo (_tiCoreInfo tableInfo) | otherwise = M.lookup role (_tiRolePermInfoMap tableInfo) askPermInfo :: (UserInfoM m, QErrM m, Backend b) => PermAccessor b c -> TableInfo b -> m c askPermInfo pa tableInfo = do roleName <- askCurRole mPermInfo <- askPermInfo' pa tableInfo onNothing mPermInfo $ throw400 PermissionDenied $ mconcat [ pt <> " on " <>> tableInfoName tableInfo , " for role " <>> roleName , " is not allowed. " ] where pt = permTypeToCode $ permAccToType pa isTabUpdatable :: RoleName -> TableInfo ('Postgres pgKind) -> Bool isTabUpdatable role ti | role == adminRoleName = True | otherwise = isJust $ M.lookup role rpim >>= _permUpd where rpim = _tiRolePermInfoMap ti askInsPermInfo :: (UserInfoM m, QErrM m, Backend b) => TableInfo b -> m (InsPermInfo b) askInsPermInfo = askPermInfo PAInsert askSelPermInfo :: (UserInfoM m, QErrM m, Backend b) => TableInfo b -> m (SelPermInfo b) askSelPermInfo = askPermInfo PASelect askUpdPermInfo :: (UserInfoM m, QErrM m, Backend b) => TableInfo b -> m (UpdPermInfo b) askUpdPermInfo = askPermInfo PAUpdate askDelPermInfo :: (UserInfoM m, QErrM m, Backend b) => TableInfo b -> m (DelPermInfo b) askDelPermInfo = askPermInfo PADelete verifyAsrns :: (MonadError QErr m) => [a -> m ()] -> [a] -> m () verifyAsrns preds xs = indexedForM_ xs $ \a -> mapM_ ($ a) preds checkSelOnCol :: forall b m . (UserInfoM m, QErrM m, Backend b) => SelPermInfo b -> Column b -> m () checkSelOnCol selPermInfo = checkPermOnCol @b PTSelect (HS.fromList $ M.keys $ spiCols @b selPermInfo) checkPermOnCol :: forall b m . (UserInfoM m, QErrM m, Backend b) => PermType -> HS.HashSet (Column b) -> Column b -> m () checkPermOnCol pt allowedCols col = do role <- askCurRole unless (HS.member col allowedCols) $ throw400 PermissionDenied $ permErrMsg role where permErrMsg role | role == adminRoleName = "no such column exists : " <>> col | otherwise = mconcat [ "role " <>> role , " does not have permission to " , permTypeToCode pt <> " column " <>> col ] checkSelectPermOnScalarComputedField :: forall b m . (UserInfoM m, QErrM m) => SelPermInfo b -> ComputedFieldName -> m () checkSelectPermOnScalarComputedField selPermInfo computedField = do role <- askCurRole unless (M.member computedField $ spiScalarComputedFields selPermInfo) $ throw400 PermissionDenied $ permErrMsg role where permErrMsg role | role == adminRoleName = "no such computed field exists : " <>> computedField | otherwise = "role " <> role <<> " does not have permission to select computed field" <>> computedField valueParserWithCollectableType :: forall pgKind m . (Backend ('Postgres pgKind), MonadError QErr m) => (ColumnType ('Postgres pgKind) -> Value -> m S.SQLExp) -> CollectableType (ColumnType ('Postgres pgKind)) -> Value -> m S.SQLExp valueParserWithCollectableType valBldr pgType val = case pgType of CollectableTypeScalar ty -> valBldr ty val CollectableTypeArray ofTy -> do -- for arrays, we don't use the prepared builder vals <- runAesonParser parseJSON val scalarValues <- parseScalarValuesColumnType ofTy vals return $ S.SETyAnn (S.SEArray $ map (toTxtValue . ColumnValue ofTy) scalarValues) (S.mkTypeAnn $ CollectableTypeArray (unsafePGColumnToBackend ofTy)) binRHSBuilder :: forall pgKind m . (Backend ('Postgres pgKind), QErrM m) => ColumnType ('Postgres pgKind) -> Value -> DMLP1T m S.SQLExp binRHSBuilder colType val = do preparedArgs <- get scalarValue <- parseScalarValueColumnType colType val put (preparedArgs DS.|> binEncoder scalarValue) return $ toPrepParam (DS.length preparedArgs + 1) (unsafePGColumnToBackend colType) fetchRelTabInfo :: (QErrM m, TableInfoRM b m, Backend b) => TableName b -> m (TableInfo b) fetchRelTabInfo refTabName = -- Internal error modifyErrAndSet500 ("foreign " <> ) $ askTabInfoSource refTabName type SessVarBldr b m = SessionVarType b -> SessionVariable -> m (SQLExpression b) fetchRelDet :: (UserInfoM m, QErrM m, TableInfoRM b m, Backend b) => RelName -> TableName b -> m (FieldInfoMap (FieldInfo b), SelPermInfo b) fetchRelDet relName refTabName = do roleName <- askCurRole -- Internal error refTabInfo <- fetchRelTabInfo refTabName -- Get the correct constraint that applies to the given relationship refSelPerm <- modifyErr (relPermErr refTabName roleName) $ askSelPermInfo refTabInfo return (_tciFieldInfoMap $ _tiCoreInfo refTabInfo, refSelPerm) where relPermErr rTable roleName _ = mconcat [ "role " <>> roleName , " does not have permission to read relationship " <>> relName , "; no permission on" , " table " <>> rTable ] checkOnColExp :: (UserInfoM m, QErrM m, TableInfoRM b m, Backend b) => SelPermInfo b -> SessVarBldr b m -> AnnBoolExpFldSQL b -> m (AnnBoolExpFldSQL b) checkOnColExp spi sessVarBldr annFld = case annFld of AVColumn colInfo _ -> do let cn = pgiColumn colInfo checkSelOnCol spi cn return annFld AVRelationship relInfo nesAnn -> do relSPI <- snd <$> fetchRelDet (riName relInfo) (riRTable relInfo) modAnn <- checkSelPerm relSPI sessVarBldr nesAnn resolvedFltr <- convAnnBoolExpPartialSQL sessVarBldr $ spiFilter relSPI return $ AVRelationship relInfo $ andAnnBoolExps modAnn resolvedFltr AVComputedField cfBoolExp -> do roleName <- askCurRole let fieldName = _acfbName cfBoolExp case _acfbBoolExp cfBoolExp of CFBEScalar _ -> do checkSelectPermOnScalarComputedField spi fieldName pure annFld CFBETable table nesBoolExp -> do tableInfo <- modifyErrAndSet500 ("function " <>) $ askTabInfoSource table let errMsg _ = "role " <> roleName <<> " does not have permission to read " <> " computed field " <> fieldName <<> "; no permission on table " <>> table tableSPI <- modifyErr errMsg $ askSelPermInfo tableInfo modBoolExp <- checkSelPerm tableSPI sessVarBldr nesBoolExp resolvedFltr <- convAnnBoolExpPartialSQL sessVarBldr $ spiFilter tableSPI -- Including table permission filter; "input condition" AND "permission filter condition" let finalBoolExp = andAnnBoolExps modBoolExp resolvedFltr pure $ AVComputedField cfBoolExp{_acfbBoolExp = CFBETable table finalBoolExp} convAnnBoolExpPartialSQL :: (Applicative f, Backend backend) => SessVarBldr backend f -> AnnBoolExpPartialSQL backend -> f (AnnBoolExpSQL backend) convAnnBoolExpPartialSQL f = (traverse . traverse) (convPartialSQLExp f) convAnnColumnCaseBoolExpPartialSQL :: (Applicative f, Backend backend) => SessVarBldr backend f -> AnnColumnCaseBoolExpPartialSQL backend -> f (AnnColumnCaseBoolExp backend (SQLExpression backend)) convAnnColumnCaseBoolExpPartialSQL f = (traverse . traverse) (convPartialSQLExp f) convPartialSQLExp :: (Applicative f) => SessVarBldr backend f -> PartialSQLExp backend -> f (SQLExpression backend) convPartialSQLExp f = \case PSESQLExp sqlExp -> pure sqlExp PSESessVar colTy sessionVariable -> f colTy sessionVariable sessVarFromCurrentSetting :: (Applicative f) => CollectableType PGScalarType -> SessionVariable -> f S.SQLExp sessVarFromCurrentSetting pgType sessVar = pure $ sessVarFromCurrentSetting' pgType sessVar sessVarFromCurrentSetting' :: CollectableType PGScalarType -> SessionVariable -> S.SQLExp sessVarFromCurrentSetting' ty sessVar = withTypeAnn ty $ fromCurrentSession currentSession sessVar withTypeAnn :: CollectableType PGScalarType -> S.SQLExp -> S.SQLExp withTypeAnn ty sessVarVal = flip S.SETyAnn (S.mkTypeAnn ty) $ case ty of CollectableTypeScalar baseTy -> withConstructorFn baseTy sessVarVal CollectableTypeArray _ -> sessVarVal retrieveAndFlagSessionVariableValue :: (MonadState s m) => (SessionVariable -> s -> s) -> SessionVariable -> S.SQLExp -> m S.SQLExp retrieveAndFlagSessionVariableValue updateState sessVar currentSessionExp = do modify $ updateState sessVar pure $ fromCurrentSession currentSessionExp sessVar fromCurrentSession :: S.SQLExp -> SessionVariable -> S.SQLExp fromCurrentSession currentSessionExp sessVar = S.SEOpApp (S.SQLOp "->>") [currentSessionExp, S.SELit $ sessionVariableToText sessVar] currentSession :: S.SQLExp currentSession = S.SEUnsafe "current_setting('hasura.user')::json" checkSelPerm :: (UserInfoM m, QErrM m, TableInfoRM b m, Backend b) => SelPermInfo b -> SessVarBldr b m -> AnnBoolExpSQL b -> m (AnnBoolExpSQL b) checkSelPerm spi sessVarBldr = traverse (checkOnColExp spi sessVarBldr) convBoolExp :: (UserInfoM m, QErrM m, TableInfoRM b m, BackendMetadata b) => FieldInfoMap (FieldInfo b) -> SelPermInfo b -> BoolExp b -> SessVarBldr b m -> TableName b -> ValueParser b m (SQLExpression b) -> m (AnnBoolExpSQL b) convBoolExp cim spi be sessVarBldr rootTable rhsParser = do abe <- annBoolExp rhsParser rootTable cim $ unBoolExp be checkSelPerm spi sessVarBldr abe dmlTxErrorHandler :: Q.PGTxErr -> QErr dmlTxErrorHandler = mkTxErrorHandler $ \case PGIntegrityConstraintViolation _ -> True PGDataException _ -> True PGSyntaxErrorOrAccessRuleViolation (Just (PGErrorSpecific code)) -> code `elem` [ PGUndefinedObject , PGInvalidColumnReference ] _ -> False toJSONableExp :: Bool -> ColumnType ('Postgres pgKind) -> Bool -> S.SQLExp -> S.SQLExp toJSONableExp strfyNum colTy asText expn | asText || (isScalarColumnWhere isBigNum colTy && strfyNum) = expn `S.SETyAnn` S.textTypeAnn | isScalarColumnWhere isGeoType colTy = S.SEFnApp "ST_AsGeoJSON" [ expn , S.SEUnsafe "15" -- max decimal digits , S.SEUnsafe "4" -- to print out crs ] Nothing `S.SETyAnn` S.jsonTypeAnn | otherwise = expn -- validate headers validateHeaders :: (UserInfoM m, QErrM m) => [Text] -> m () validateHeaders depHeaders = do headers <- getSessionVariables . _uiSession <$> askUserInfo forM_ depHeaders $ \hdr -> unless (hdr `elem` map T.toLower headers) $ throw400 NotFound $ hdr <<> " header is expected but not found" -- validate limit and offset int values onlyPositiveInt :: MonadError QErr m => Int -> m () onlyPositiveInt i = when (i < 0) $ throw400 NotSupported "unexpected negative value"