{-# LANGUAGE DeriveDataTypeable, GeneralizedNewtypeDeriving, FlexibleContexts, FlexibleInstances, MultiParamTypeClasses #-} -- | Functions for extracting values from the query string, form data, cookies, etc. -- -- For in-depth documentation see the following section of the Happstack Crash Course: -- -- module Happstack.Server.RqData ( -- * Looking up keys -- ** Form Values and Query Parameters look , looks , lookText , lookText' , lookTexts , lookTexts' , lookBS , lookBSs , lookRead , lookReads , lookFile , lookPairs , lookPairsBS -- ** Cookies , lookCookie , lookCookieValue , readCookieValue -- ** low-level , lookInput , lookInputs -- * Filters -- The look* functions normally search the QUERY_STRING and the Request -- body for matches keys. , body , queryString , bytestring -- * Validation and Parsing , checkRq , checkRqM , readRq , unsafeReadRq -- * Handling POST\/PUT Requests , decodeBody -- ** Body Policy , BodyPolicy(..) , defaultBodyPolicy -- * RqData Monad & Error Reporting , RqData , mapRqData , Errors(..) -- ** Using RqData with ServerMonad , getDataFn , withDataFn , FromData(..) , getData , withData -- * HasRqData class , RqEnv , HasRqData(askRqEnv, localRqEnv,rqDataError) ) where import Control.Applicative (Applicative((<*>), pure), Alternative((<|>), empty), WrappedMonad(WrapMonad, unwrapMonad), (<$>)) import Control.Concurrent.MVar (newMVar) import Control.Monad (MonadPlus(mzero)) import Control.Monad.Reader (ReaderT(ReaderT, runReaderT), MonadReader(ask, local), mapReaderT) import Control.Monad.State (StateT, mapStateT) import Control.Monad.Writer (WriterT, mapWriterT) import Control.Monad.RWS (RWST, mapRWST) import Control.Monad.Error (Error(noMsg, strMsg)) import Control.Monad.Trans (MonadIO(..), lift) import qualified Data.ByteString.Char8 as P import qualified Data.ByteString.Lazy.Char8 as L import qualified Data.ByteString.Lazy.UTF8 as LU import Data.Char (toLower) import Data.Either (partitionEithers) import Data.Generics (Data, Typeable) import Data.Maybe (fromMaybe, fromJust) import Data.Monoid (Monoid(mempty, mappend, mconcat)) import Data.Text (Text) import qualified Data.Text.Lazy as LazyText import qualified Data.Text.Lazy.Encoding as LazyText import Happstack.Server.Cookie (Cookie (cookieValue)) import Happstack.Server.Internal.Monads (ServerMonad(askRq, localRq), FilterMonad, WebMonad, ServerPartT, escape) import Happstack.Server.Internal.RFC822Headers (parseContentType) import Happstack.Server.Types (ContentType(..), FromReqURI(..), Input(inputValue, inputFilename, inputContentType), Response, Request(rqInputsQuery, rqInputsBody, rqCookies, rqMethod), Method(POST,PUT), getHeader, readInputsBody) import Happstack.Server.Internal.MessageWrap (BodyPolicy(..), bodyInput, defaultBodyPolicy) import Happstack.Server.Response (requestEntityTooLarge, toResponse) newtype ReaderError r e a = ReaderError { unReaderError :: ReaderT r (Either e) a } deriving (Functor, Monad, MonadPlus) instance (Error e) => MonadReader r (ReaderError r e) where ask = ReaderError ask local f m = ReaderError $ local f (unReaderError m) instance (Monoid e, Error e) => Applicative (ReaderError r e) where pure = return (ReaderError (ReaderT f)) <*> (ReaderError (ReaderT a)) = ReaderError $ ReaderT $ \env -> (f env) `apEither` (a env) instance (Monoid e, Error e) => Alternative (ReaderError r e) where empty = unwrapMonad empty f <|> g = unwrapMonad $ (WrapMonad f) <|> (WrapMonad g) apEither :: (Monoid e) => Either e (a -> b) -> Either e a -> Either e b apEither (Left errs1) (Left errs2) = Left (errs1 `mappend` errs2) apEither (Left errs) _ = Left errs apEither _ (Left errs) = Left errs apEither (Right f) (Right a) = Right (f a) -- | a list of errors newtype Errors a = Errors { unErrors :: [a] } deriving (Eq, Ord, Show, Read, Data, Typeable) instance Monoid (Errors a) where mempty = Errors [] (Errors x) `mappend` (Errors y) = Errors (x ++ y) mconcat errs = Errors $ concatMap unErrors errs instance Error (Errors String) where noMsg = Errors [] strMsg str = Errors [str] {- commented out to avoid 'Defined but not used' warning. readerError :: (Monoid e, Error e) => e -> ReaderError r e b readerError e = mapReaderErrorT ((Left e) `apEither`) (return ()) mapReaderErrorT :: (Either e a -> Either e' b) -> (ReaderError r e a) -> (ReaderError r e' b) mapReaderErrorT f m = ReaderError $ mapReaderT f (unReaderError m) -} runReaderError :: ReaderError r e a -> r -> Either e a runReaderError = runReaderT . unReaderError -- | the environment used to lookup query parameters. It consists of -- the triple: (query string inputs, body inputs, cookie inputs) type RqEnv = ([(String, Input)], Maybe [(String, Input)], [(String, Cookie)]) -- | An applicative functor and monad for looking up key/value pairs -- in the QUERY_STRING, Request body, and cookies. newtype RqData a = RqData { unRqData :: ReaderError RqEnv (Errors String) a } deriving (Functor, Monad, MonadPlus, Applicative, Alternative, MonadReader RqEnv ) -- | A class for monads which contain a 'RqEnv' class HasRqData m where askRqEnv :: m RqEnv localRqEnv :: (RqEnv -> RqEnv) -> m a -> m a -- | lift some 'Errors' into 'RqData' rqDataError :: Errors String -> m a instance HasRqData RqData where askRqEnv = RqData ask localRqEnv f (RqData re) = RqData $ local f re rqDataError e = mapRqData ((Left e) `apEither`) (return ()) -- instance (MonadPlus m, MonadIO m, ServerMonad m) => (HasRqData m) where instance (MonadIO m) => HasRqData (ServerPartT m) where askRqEnv = do rq <- askRq mbi <- liftIO $ if ((rqMethod rq == POST) || (rqMethod rq == PUT)) && (isDecodable (ctype rq)) then readInputsBody rq else return (Just []) return (rqInputsQuery rq, mbi, rqCookies rq) where ctype :: Request -> Maybe ContentType ctype req = parseContentType . P.unpack =<< getHeader "content-type" req isDecodable :: Maybe ContentType -> Bool isDecodable Nothing = True -- assume it is application/x-www-form-urlencoded isDecodable (Just (ContentType "application" "x-www-form-urlencoded" _)) = True isDecodable (Just (ContentType "multipart" "form-data" _ps)) = True isDecodable (Just _) = False rqDataError _e = mzero localRqEnv f m = do rq <- askRq b <- liftIO $ readInputsBody rq let (q', b', c') = f (rqInputsQuery rq, b, rqCookies rq) bv <- liftIO $ newMVar (fromMaybe [] b') let rq' = rq { rqInputsQuery = q' , rqInputsBody = bv , rqCookies = c' } localRq (const rq') m ------------------------------------------------------------------------------ -- HasRqData instances for ReaderT, StateT, WriterT, and RWST ------------------------------------------------------------------------------ instance (Monad m, HasRqData m) => HasRqData (ReaderT s m) where askRqEnv = lift askRqEnv localRqEnv f = mapReaderT (localRqEnv f) rqDataError e = lift (rqDataError e) instance (Monad m, HasRqData m) => HasRqData (StateT s m) where askRqEnv = lift askRqEnv localRqEnv f = mapStateT (localRqEnv f) rqDataError e = lift (rqDataError e) instance (Monad m, HasRqData m, Monoid w) => HasRqData (WriterT w m) where askRqEnv = lift askRqEnv localRqEnv f = mapWriterT (localRqEnv f) rqDataError e = lift (rqDataError e) instance (Monad m, HasRqData m, Monoid w) => HasRqData (RWST r w s m) where askRqEnv = lift askRqEnv localRqEnv f = mapRWST (localRqEnv f) rqDataError e = lift (rqDataError e) -- | apply 'RqData a' to a 'RqEnv' -- -- see also: 'getData', 'getDataFn', 'withData', 'withDataFn', 'RqData', 'getDataFn' runRqData :: RqData a -> RqEnv -> Either [String] a runRqData rqData rqEnv = either (Left . unErrors) Right $ runReaderError (unRqData rqData) rqEnv -- | transform the result of 'RqData a'. -- -- This is similar to 'fmap' except it also allows you to modify the -- 'Errors' not just 'a'. mapRqData :: (Either (Errors String) a -> Either (Errors String) b) -> RqData a -> RqData b mapRqData f m = RqData $ ReaderError $ mapReaderT f (unReaderError (unRqData m)) -- | use 'read' to convert a 'String' to a value of type 'a' -- -- > look "key" `checkRq` (unsafeReadRq "key") -- -- use with 'checkRq' -- -- NOTE: This function is marked unsafe because some Read instances -- are vulnerable to attacks that attempt to create an out of memory -- condition. For example: -- -- > read "1e10000000000000" :: Integer -- -- see also: 'readRq' unsafeReadRq :: (Read a) => String -- ^ name of key (only used for error reporting) -> String -- ^ 'String' to 'read' -> Either String a -- ^ 'Left' on error, 'Right' on success unsafeReadRq key val = case reads val of [(a,[])] -> Right a _ -> Left $ "readRq failed while parsing key: " ++ key ++ " which has the value: " ++ val -- | use 'fromReqURI' to convert a 'String' to a value of type 'a' -- -- > look "key" `checkRq` (readRq "key") -- -- use with 'checkRq' readRq :: (FromReqURI a) => String -- ^ name of key (only used for error reporting) -> String -- ^ 'String' to 'read' -> Either String a -- ^ 'Left' on error, 'Right' on success readRq key val = case fromReqURI val of (Just a) -> Right a _ -> Left $ "readRq failed while parsing key: " ++ key ++ " which has the value: " ++ val -- | convert or validate a value -- -- This is similar to 'fmap' except that the function can fail by -- returning Left and an error message. The error will be propagated -- by calling 'rqDataError'. -- -- This function is useful for a number of things including: -- -- (1) Parsing a 'String' into another type -- -- (2) Checking that a value meets some requirements (for example, that is an Int between 1 and 10). -- -- Example usage at: -- -- checkRq :: (Monad m, HasRqData m) => m a -> (a -> Either String b) -> m b checkRq rq f = do a <- rq case f a of (Left e) -> rqDataError (strMsg e) (Right b) -> return b -- | like 'checkRq' but the check function can be monadic checkRqM :: (Monad m, HasRqData m) => m a -> (a -> m (Either String b)) -> m b checkRqM rq f = do a <- rq eb <- f a case eb of (Left e) -> rqDataError (strMsg e) (Right b) -> return b -- | Used by 'withData' and 'getData'. Make your preferred data -- type an instance of 'FromData' to use those functions. class FromData a where fromData :: RqData a {- instance (Eq a,Show a,Xml a,G.Data a) => FromData a where fromData = do mbA <- lookPairs >>= return . normalize . fromPairs case mbA of Just a -> return a Nothing -> fail "FromData G.Data failure" -- fromData = lookPairs >>= return . normalize . fromPairs -} instance (FromData a, FromData b) => FromData (a,b) where fromData = (,) <$> fromData <*> fromData instance (FromData a, FromData b, FromData c) => FromData (a,b,c) where fromData = (,,) <$> fromData <*> fromData <*> fromData instance (FromData a, FromData b, FromData c, FromData d) => FromData (a,b,c,d) where fromData = (,,,) <$> fromData <*> fromData <*> fromData <*> fromData instance FromData a => FromData (Maybe a) where fromData = (Just <$> fromData) <|> (pure Nothing) -- | similar to 'Data.List.lookup' but returns all matches not just the first lookups :: (Eq a) => a -> [(a, b)] -> [b] lookups a = map snd . filter ((a ==) . fst) fromMaybeBody :: String -> String -> Maybe [(String, Input)] -> [(String, Input)] fromMaybeBody funName fieldName mBody = case mBody of Nothing -> error $ funName ++ " " ++ fieldName ++ " failed because the request body has not been decoded yet. Try using 'decodeBody' to decode the body. Or the 'queryString' filter to ignore the body." (Just bdy) -> bdy -- | Gets the first matching named input parameter -- -- Searches the QUERY_STRING followed by the Request body. -- -- see also: 'lookInputs' lookInput :: (Monad m, HasRqData m) => String -> m Input lookInput name = do (query, mBody, _cookies) <- askRqEnv let bdy = fromMaybeBody "lookInput" name mBody case lookup name (query ++ bdy) of Just i -> return $ i Nothing -> rqDataError (strMsg $ "Parameter not found: " ++ name) -- | Gets all matches for the named input parameter -- -- Searches the QUERY_STRING followed by the Request body. -- -- see also: 'lookInput' lookInputs :: (Monad m, HasRqData m) => String -> m [Input] lookInputs name = do (query, mBody, _cookies) <- askRqEnv let bdy = fromMaybeBody "lookInputs" name mBody return $ lookups name (query ++ bdy) -- | Gets the first matching named input parameter as a lazy 'ByteString' -- -- Searches the QUERY_STRING followed by the Request body. -- -- see also: 'lookBSs' lookBS :: (Functor m, Monad m, HasRqData m) => String -> m L.ByteString lookBS n = do i <- fmap inputValue (lookInput n) case i of (Left _fp) -> rqDataError $ (strMsg $ "lookBS: " ++ n ++ " is a file.") (Right bs) -> return bs -- | Gets all matches for the named input parameter as lazy 'ByteString's -- -- Searches the QUERY_STRING followed by the Request body. -- -- see also: 'lookBS' lookBSs :: (Functor m, Monad m, HasRqData m) => String -> m [L.ByteString] lookBSs n = do is <- fmap (map inputValue) (lookInputs n) case partitionEithers is of ([], bs) -> return bs (_fp, _) -> rqDataError (strMsg $ "lookBSs: " ++ n ++ " is a file.") -- | Gets the first matching named input parameter as a 'String' -- -- Searches the QUERY_STRING followed by the Request body. -- -- This function assumes the underlying octets are UTF-8 encoded. -- -- Example: -- -- > handler :: ServerPart Response -- > handler = -- > do foo <- look "foo" -- > ok $ toResponse $ "foo = " ++ foo -- -- see also: 'looks', 'lookBS', and 'lookBSs' look :: (Functor m, Monad m, HasRqData m) => String -> m String look = fmap LU.toString . lookBS -- | Gets all matches for the named input parameter as 'String's -- -- Searches the QUERY_STRING followed by the Request body. -- -- This function assumes the underlying octets are UTF-8 encoded. -- -- see also: 'look' and 'lookBSs' looks :: (Functor m, Monad m, HasRqData m) => String -> m [String] looks = fmap (map LU.toString) . lookBSs -- | Gets the first matching named input parameter as a lazy 'Text' -- -- Searches the QUERY_STRING followed by the Request body. -- -- This function assumes the underlying octets are UTF-8 encoded. -- -- see also: 'lookTexts', 'look', 'looks', 'lookBS', and 'lookBSs' lookText :: (Functor m, Monad m, HasRqData m) => String -> m LazyText.Text lookText = fmap LazyText.decodeUtf8 . lookBS -- | Gets the first matching named input parameter as a strict 'Text' -- -- Searches the QUERY_STRING followed by the Request body. -- -- This function assumes the underlying octets are UTF-8 encoded. -- -- see also: 'lookTexts', 'look', 'looks', 'lookBS', and 'lookBSs' lookText' :: (Functor m, Monad m, HasRqData m) => String -> m Text lookText' = fmap LazyText.toStrict . lookText -- | Gets all matches for the named input parameter as lazy 'Text's -- -- Searches the QUERY_STRING followed by the Request body. -- -- This function assumes the underlying octets are UTF-8 encoded. -- -- see also: 'lookText', 'looks' and 'lookBSs' lookTexts :: (Functor m, Monad m, HasRqData m) => String -> m [LazyText.Text] lookTexts = fmap (map LazyText.decodeUtf8) . lookBSs -- | Gets all matches for the named input parameter as strict 'Text's -- -- Searches the QUERY_STRING followed by the Request body. -- -- This function assumes the underlying octets are UTF-8 encoded. -- -- see also: 'lookText'', 'looks' and 'lookBSs' lookTexts' :: (Functor m, Monad m, HasRqData m) => String -> m [Text] lookTexts' = fmap (map LazyText.toStrict) . lookTexts -- | Gets the named cookie -- the cookie name is case insensitive lookCookie :: (Monad m, HasRqData m) => String -> m Cookie lookCookie name = do (_query,_body, cookies) <- askRqEnv case lookup (map toLower name) cookies of -- keys are lowercased Nothing -> rqDataError $ strMsg $ "lookCookie: cookie not found: " ++ name Just c -> return c -- | gets the named cookie as a string lookCookieValue :: (Functor m, Monad m, HasRqData m) => String -> m String lookCookieValue = fmap cookieValue . lookCookie -- | gets the named cookie as the requested Read type readCookieValue :: (Functor m, Monad m, HasRqData m, FromReqURI a) => String -> m a readCookieValue name = fmap cookieValue (lookCookie name) `checkRq` (readRq name) -- | Gets the first matching named input parameter and decodes it using 'Read' -- -- Searches the QUERY_STRING followed by the Request body. -- -- This function assumes the underlying octets are UTF-8 encoded. -- -- see also: 'lookReads' lookRead :: (Functor m, Monad m, HasRqData m, FromReqURI a) => String -> m a lookRead name = look name `checkRq` (readRq name) -- | Gets all matches for the named input parameter and decodes them using 'Read' -- -- Searches the QUERY_STRING followed by the Request body. -- -- This function assumes the underlying octets are UTF-8 encoded. -- -- see also: 'lookReads' lookReads :: (Functor m, Monad m, HasRqData m, FromReqURI a) => String -> m [a] lookReads name = do vals <- looks name mapM (\v -> (return v) `checkRq` (readRq name)) vals -- | Gets the first matching named file -- -- Files can only appear in the request body. Additionally, the form -- must set enctype=\"multipart\/form-data\". -- -- This function returns a tuple consisting of: -- -- (1) The temporary location of the uploaded file -- -- (2) The local filename supplied by the browser -- -- (3) The content-type supplied by the browser -- -- If the user does not supply a file in the html form input field, -- the behaviour will depend upon the browser. Most browsers will send -- a 0-length file with an empty file name, so checking that (2) is -- not empty is usually sufficient to ensure the field has been -- filled. -- -- NOTE: You must move the file from the temporary location before the -- 'Response' is sent. The temporary files are automatically removed -- after the 'Response' is sent. lookFile :: (Monad m, HasRqData m) => String -- ^ name of input field to search for -> m (FilePath, FilePath, ContentType) -- ^ (temporary file location, uploaded file name, content-type) lookFile n = do i <- lookInput n case inputValue i of (Right _) -> rqDataError $ (strMsg $ "lookFile: " ++ n ++ " was found but is not a file.") (Left fp) -> return (fp, fromJust $ inputFilename i, inputContentType i) -- | gets all the input parameters, and converts them to a 'String' -- -- The results will contain the QUERY_STRING followed by the Request -- body. -- -- This function assumes the underlying octets are UTF-8 encoded. -- -- see also: 'lookPairsBS' lookPairs :: (Monad m, HasRqData m) => m [(String, Either FilePath String)] lookPairs = do (query, mBody, _cookies) <- askRqEnv let bdy = fromMaybeBody "lookPairs" "" mBody return $ map (\(n,vbs)->(n, (\e -> case e of Left fp -> Left fp ; Right bs -> Right (LU.toString bs)) $ inputValue vbs)) (query ++ bdy) -- | gets all the input parameters -- -- The results will contain the QUERY_STRING followed by the Request -- body. -- -- see also: 'lookPairs' lookPairsBS :: (Monad m, HasRqData m) => m [(String, Either FilePath L.ByteString)] lookPairsBS = do (query, mBody, _cookies) <- askRqEnv let bdy = fromMaybeBody "lookPairsBS" "" mBody return $ map (\(n,vbs) -> (n, inputValue vbs)) (query ++ bdy) -- | The POST\/PUT body of a Request is not received or decoded unless -- this function is invoked. -- -- It is an error to try to use the look functions for a POST\/PUT -- request with out first calling this function. -- -- It is ok to call 'decodeBody' at the beginning of every request: -- -- > main = simpleHTTP nullConf $ -- > do decodeBody (defaultBodyPolicy "/tmp/" 4096 4096 4096) -- > handlers -- -- You can achieve finer granularity quotas by calling 'decodeBody' -- with different values in different handlers. -- -- Only the first call to 'decodeBody' will have any effect. Calling -- it a second time, even with different quota values, will do -- nothing. decodeBody :: (ServerMonad m, MonadPlus m, MonadIO m, FilterMonad Response m, WebMonad Response m) => BodyPolicy -> m () decodeBody bp = do rq <- askRq (_, me) <- bodyInput bp rq case me of Nothing -> return () Just e -> escape $ requestEntityTooLarge (toResponse e) -- FIXME: is this the best way to report the error -- | run 'RqData' in a 'ServerMonad'. -- -- Example: a simple @GET@ or @POST@ variable based authentication -- guard. It handles the request with 'errorHandler' if -- authentication fails. -- -- > data AuthCredentials = AuthCredentials { username :: String, password :: String } -- > -- > isValid :: AuthCredentials -> Bool -- > isValid = const True -- > -- > myRqData :: RqData AuthCredentials -- > myRqData = do -- > username <- look "username" -- > password <- look "password" -- > return (AuthCredentials username password) -- > -- > checkAuth :: (String -> ServerPart Response) -> ServerPart Response -- > checkAuth errorHandler = do -- > d <- getDataFn myRqData -- > case d of -- > (Left e) -> errorHandler (unlines e) -- > (Right a) | isValid a -> mzero -- > (Right a) | otherwise -> errorHandler "invalid" -- -- NOTE: you must call 'decodeBody' prior to calling this function if -- the request method is POST or PUT. getDataFn :: (HasRqData m, ServerMonad m) => RqData a -- ^ 'RqData' monad to evaluate -> m (Either [String] a) -- ^ return 'Left' errors or 'Right' a getDataFn rqData = do rqEnv <- askRqEnv return (runRqData rqData rqEnv) -- | similar to 'getDataFn', except it calls a sub-handler on success -- or 'mzero' on failure. -- -- NOTE: you must call 'decodeBody' prior to calling this function if -- the request method is POST or PUT. withDataFn :: (HasRqData m, MonadPlus m, ServerMonad m) => RqData a -> (a -> m r) -> m r withDataFn fn handle = getDataFn fn >>= either (const mzero) handle -- | A variant of 'getDataFn' that uses 'FromData' to chose your -- 'RqData' for you. The example from 'getData' becomes: -- -- > data AuthCredentials = AuthCredentials { username :: String, password :: String } -- > -- > isValid :: AuthCredentials -> Bool -- > isValid = const True -- > -- > myRqData :: RqData AuthCredentials -- > myRqData = do -- > username <- look "username" -- > password <- look "password" -- > return (AuthCredentials username password) -- > -- > instance FromData AuthCredentials where -- > fromData = myRqData -- > -- > checkAuth :: (String -> ServerPart Response) -> ServerPart Response -- > checkAuth errorHandler = do -- > d <- getData -- > case d of -- > (Left e) -> errorHandler (unlines e) -- > (Right a) | isValid a -> mzero -- > (Right a) | otherwise -> errorHandler "invalid" -- -- NOTE: you must call 'decodeBody' prior to calling this function if -- the request method is POST or PUT. getData :: (HasRqData m, ServerMonad m, FromData a) => m (Either [String] a) getData = getDataFn fromData -- | similar to 'getData' except it calls a subhandler on success or 'mzero' on failure. -- -- NOTE: you must call 'decodeBody' prior to calling this function if -- the request method is POST or PUT. withData :: (HasRqData m, FromData a, MonadPlus m, ServerMonad m) => (a -> m r) -> m r withData = withDataFn fromData -- | limit the scope to the Request body -- -- > handler :: ServerPart Response -- > handler = -- > do foo <- body $ look "foo" -- > ok $ toResponse $ "foo = " ++ foo body :: (HasRqData m) => m a -> m a body rqData = localRqEnv f rqData where f (_query, bdy, _cookies) = ([], bdy, []) -- | limit the scope to the QUERY_STRING -- -- > handler :: ServerPart Response -- > handler = -- > do foo <- queryString $ look "foo" -- > ok $ toResponse $ "foo = " ++ foo queryString :: (HasRqData m) => m a -> m a queryString rqData = localRqEnv f rqData where f (query, _body, _cookies) = (query, Just [], []) -- | limit the scope to 'Input's which produce a 'ByteString' (aka, not a file) bytestring :: (HasRqData m) => m a -> m a bytestring rqData = localRqEnv f rqData where f (query, bdy, cookies) = (filter bsf query, filter bsf <$> bdy, cookies) bsf (_, i) = case inputValue i of (Left _fp) -> False (Right _bs) -> True