{-# LANGUAGE CPP #-}
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE UndecidableInstances #-}
#if MIN_VERSION_base(4,9,0) && __GLASGOW_HASKELL__ >= 802
#define HAS_TYPE_ERROR
#endif
#ifdef HAS_TYPE_ERROR
{-# LANGUAGE UndecidableInstances #-}
#endif
#include "overlapping-compat.h"
module Servant.Server.Internal
( module Servant.Server.Internal
, module Servant.Server.Internal.BasicAuth
, module Servant.Server.Internal.Context
, module Servant.Server.Internal.Handler
, module Servant.Server.Internal.Router
, module Servant.Server.Internal.RoutingApplication
, module Servant.Server.Internal.ServantErr
) where
import Control.Monad (join, when)
import Control.Monad.Trans (liftIO)
import Control.Monad.Trans.Resource (runResourceT)
import qualified Data.ByteString as B
import qualified Data.ByteString.Builder as BB
import qualified Data.ByteString.Char8 as BC8
import qualified Data.ByteString.Lazy as BL
import Data.Maybe (fromMaybe, mapMaybe,
isNothing, maybeToList)
import Data.Either (partitionEithers)
import Data.Semigroup ((<>))
import Data.String (IsString (..))
import Data.String.Conversions (cs)
import Data.Tagged (Tagged(..), retag, untag)
import qualified Data.Text as T
import Data.Typeable
import GHC.TypeLits (KnownNat, KnownSymbol, natVal,
symbolVal)
import Network.HTTP.Types hiding (Header, ResponseHeaders)
import qualified Network.HTTP.Media as NHM
import Network.Socket (SockAddr)
import Network.Wai (Application, Request,
httpVersion, isSecure,
lazyRequestBody,
rawQueryString, remoteHost,
requestHeaders, requestMethod,
responseLBS, responseStream,
vault)
import Prelude ()
import Prelude.Compat
import Web.HttpApiData (FromHttpApiData, parseHeader,
parseQueryParam,
parseUrlPieceMaybe,
parseUrlPieces)
import Servant.API ((:<|>) (..), (:>), BasicAuth, Capture',
CaptureAll, Verb, EmptyAPI,
ReflectMethod(reflectMethod),
IsSecure(..), Header', QueryFlag,
QueryParam', QueryParams, Raw,
RemoteHost, ReqBody', Vault,
WithNamedContext,
Description, Summary,
Accept(..),
FramingRender(..), Stream,
StreamGenerator(..), ToStreamGenerator(..),
BoundaryStrategy(..),
If, SBool (..), SBoolI (..))
import Servant.API.Modifiers (unfoldRequestArgument, RequestArgument, FoldRequired, FoldLenient)
import Servant.API.ContentTypes (AcceptHeader (..),
AllCTRender (..),
AllCTUnrender (..),
AllMime,
MimeRender(..),
canHandleAcceptH)
import Servant.API.ResponseHeaders (GetHeaders, Headers, getHeaders,
getResponse)
import Servant.Server.Internal.Context
import Servant.Server.Internal.BasicAuth
import Servant.Server.Internal.Handler
import Servant.Server.Internal.Router
import Servant.Server.Internal.RoutingApplication
import Servant.Server.Internal.ServantErr
#ifdef HAS_TYPE_ERROR
import GHC.TypeLits (TypeError, ErrorMessage (..))
#endif
class HasServer api context where
type ServerT api (m :: * -> *) :: *
route ::
Proxy api
-> Context context
-> Delayed env (Server api)
-> Router env
hoistServerWithContext
:: Proxy api
-> Proxy context
-> (forall x. m x -> n x)
-> ServerT api m
-> ServerT api n
type Server api = ServerT api Handler
instance (HasServer a context, HasServer b context) => HasServer (a :<|> b) context where
type ServerT (a :<|> b) m = ServerT a m :<|> ServerT b m
route Proxy context server = choice (route pa context ((\ (a :<|> _) -> a) <$> server))
(route pb context ((\ (_ :<|> b) -> b) <$> server))
where pa = Proxy :: Proxy a
pb = Proxy :: Proxy b
hoistServerWithContext _ pc nt (a :<|> b) =
hoistServerWithContext (Proxy :: Proxy a) pc nt a :<|>
hoistServerWithContext (Proxy :: Proxy b) pc nt b
instance (KnownSymbol capture, FromHttpApiData a, HasServer api context)
=> HasServer (Capture' mods capture a :> api) context where
type ServerT (Capture' mods capture a :> api) m =
a -> ServerT api m
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
route Proxy context d =
CaptureRouter $
route (Proxy :: Proxy api)
context
(addCapture d $ \ txt -> case parseUrlPieceMaybe txt of
Nothing -> delayedFail err400
Just v -> return v
)
instance (KnownSymbol capture, FromHttpApiData a, HasServer api context)
=> HasServer (CaptureAll capture a :> api) context where
type ServerT (CaptureAll capture a :> api) m =
[a] -> ServerT api m
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
route Proxy context d =
CaptureAllRouter $
route (Proxy :: Proxy api)
context
(addCapture d $ \ txts -> case parseUrlPieces txts of
Left _ -> delayedFail err400
Right v -> return v
)
allowedMethodHead :: Method -> Request -> Bool
allowedMethodHead method request = method == methodGet && requestMethod request == methodHead
allowedMethod :: Method -> Request -> Bool
allowedMethod method request = allowedMethodHead method request || requestMethod request == method
methodCheck :: Method -> Request -> DelayedIO ()
methodCheck method request
| allowedMethod method request = return ()
| otherwise = delayedFail err405
acceptCheck :: (AllMime list) => Proxy list -> B.ByteString -> DelayedIO ()
acceptCheck proxy accH
| canHandleAcceptH proxy (AcceptHeader accH) = return ()
| otherwise = delayedFail err406
methodRouter :: (AllCTRender ctypes a)
=> (b -> ([(HeaderName, B.ByteString)], a))
-> Method -> Proxy ctypes -> Status
-> Delayed env (Handler b)
-> Router env
methodRouter splitHeaders method proxy status action = leafRouter route'
where
route' env request respond =
let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request
in runAction (action `addMethodCheck` methodCheck method request
`addAcceptCheck` acceptCheck proxy accH
) env request respond $ \ output -> do
let (headers, b) = splitHeaders output
case handleAcceptH proxy (AcceptHeader accH) b of
Nothing -> FailFatal err406
Just (contentT, body) ->
let bdy = if allowedMethodHead method request then "" else body
in Route $ responseLBS status ((hContentType, cs contentT) : headers) bdy
instance OVERLAPPABLE_
( AllCTRender ctypes a, ReflectMethod method, KnownNat status
) => HasServer (Verb method status ctypes a) context where
type ServerT (Verb method status ctypes a) m = m a
hoistServerWithContext _ _ nt s = nt s
route Proxy _ = methodRouter ([],) method (Proxy :: Proxy ctypes) status
where method = reflectMethod (Proxy :: Proxy method)
status = toEnum . fromInteger $ natVal (Proxy :: Proxy status)
instance OVERLAPPING_
( AllCTRender ctypes a, ReflectMethod method, KnownNat status
, GetHeaders (Headers h a)
) => HasServer (Verb method status ctypes (Headers h a)) context where
type ServerT (Verb method status ctypes (Headers h a)) m = m (Headers h a)
hoistServerWithContext _ _ nt s = nt s
route Proxy _ = methodRouter (\x -> (getHeaders x, getResponse x)) method (Proxy :: Proxy ctypes) status
where method = reflectMethod (Proxy :: Proxy method)
status = toEnum . fromInteger $ natVal (Proxy :: Proxy status)
instance OVERLAPPABLE_
( MimeRender ctype a, ReflectMethod method, KnownNat status,
FramingRender framing ctype, ToStreamGenerator b a
) => HasServer (Stream method status framing ctype b) context where
type ServerT (Stream method status framing ctype b) m = m b
hoistServerWithContext _ _ nt s = nt s
route Proxy _ = streamRouter ([],) method status (Proxy :: Proxy framing) (Proxy :: Proxy ctype)
where method = reflectMethod (Proxy :: Proxy method)
status = toEnum . fromInteger $ natVal (Proxy :: Proxy status)
instance OVERLAPPING_
( MimeRender ctype a, ReflectMethod method, KnownNat status,
FramingRender framing ctype, ToStreamGenerator b a,
GetHeaders (Headers h b)
) => HasServer (Stream method status framing ctype (Headers h b)) context where
type ServerT (Stream method status framing ctype (Headers h b)) m = m (Headers h b)
hoistServerWithContext _ _ nt s = nt s
route Proxy _ = streamRouter (\x -> (getHeaders x, getResponse x)) method status (Proxy :: Proxy framing) (Proxy :: Proxy ctype)
where method = reflectMethod (Proxy :: Proxy method)
status = toEnum . fromInteger $ natVal (Proxy :: Proxy status)
streamRouter :: (MimeRender ctype a, FramingRender framing ctype, ToStreamGenerator b a) =>
(c -> ([(HeaderName, B.ByteString)], b))
-> Method
-> Status
-> Proxy framing
-> Proxy ctype
-> Delayed env (Handler c)
-> Router env
streamRouter splitHeaders method status framingproxy ctypeproxy action = leafRouter $ \env request respond ->
let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request
cmediatype = NHM.matchAccept [contentType ctypeproxy] accH
accCheck = when (isNothing cmediatype) $ delayedFail err406
contentHeader = (hContentType, NHM.renderHeader . maybeToList $ cmediatype)
in runAction (action `addMethodCheck` methodCheck method request
`addAcceptCheck` accCheck
) env request respond $ \ output ->
let (headers, fa) = splitHeaders output
k = getStreamGenerator . toStreamGenerator $ fa in
Route $ responseStream status (contentHeader : headers) $ \write flush -> do
write . BB.lazyByteString $ header framingproxy ctypeproxy
case boundary framingproxy ctypeproxy of
BoundaryStrategyBracket f ->
let go x = let bs = mimeRender ctypeproxy x
(before, after) = f bs
in write ( BB.lazyByteString before
<> BB.lazyByteString bs
<> BB.lazyByteString after) >> flush
in k go go
BoundaryStrategyIntersperse sep -> k
(\x -> do
write . BB.lazyByteString . mimeRender ctypeproxy $ x
flush)
(\x -> do
write . (BB.lazyByteString sep <>) . BB.lazyByteString . mimeRender ctypeproxy $ x
flush)
BoundaryStrategyGeneral f ->
let go = (>> flush) . write . BB.lazyByteString . f . mimeRender ctypeproxy
in k go go
write . BB.lazyByteString $ trailer framingproxy ctypeproxy
instance
(KnownSymbol sym, FromHttpApiData a, HasServer api context
, SBoolI (FoldRequired mods), SBoolI (FoldLenient mods)
)
=> HasServer (Header' mods sym a :> api) context where
type ServerT (Header' mods sym a :> api) m =
RequestArgument mods a -> ServerT api m
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
route Proxy context subserver = route (Proxy :: Proxy api) context $
subserver `addHeaderCheck` withRequest headerCheck
where
headerName :: IsString n => n
headerName = fromString $ symbolVal (Proxy :: Proxy sym)
headerCheck :: Request -> DelayedIO (RequestArgument mods a)
headerCheck req =
unfoldRequestArgument (Proxy :: Proxy mods) errReq errSt mev
where
mev :: Maybe (Either T.Text a)
mev = fmap parseHeader $ lookup headerName (requestHeaders req)
errReq = delayedFailFatal err400
{ errBody = "Header " <> headerName <> " is required"
}
errSt e = delayedFailFatal err400
{ errBody = cs $ "Error parsing header "
<> headerName
<> " failed: " <> e
}
instance
( KnownSymbol sym, FromHttpApiData a, HasServer api context
, SBoolI (FoldRequired mods), SBoolI (FoldLenient mods)
)
=> HasServer (QueryParam' mods sym a :> api) context where
type ServerT (QueryParam' mods sym a :> api) m =
RequestArgument mods a -> ServerT api m
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
route Proxy context subserver =
let querytext req = parseQueryText $ rawQueryString req
paramname = cs $ symbolVal (Proxy :: Proxy sym)
parseParam :: Request -> DelayedIO (RequestArgument mods a)
parseParam req =
unfoldRequestArgument (Proxy :: Proxy mods) errReq errSt mev
where
mev :: Maybe (Either T.Text a)
mev = fmap parseQueryParam $ join $ lookup paramname $ querytext req
errReq = delayedFailFatal err400
{ errBody = cs $ "Query parameter " <> paramname <> " is required"
}
errSt e = delayedFailFatal err400
{ errBody = cs $ "Error parsing query parameter "
<> paramname <> " failed: " <> e
}
delayed = addParameterCheck subserver . withRequest $ \req ->
parseParam req
in route (Proxy :: Proxy api) context delayed
instance (KnownSymbol sym, FromHttpApiData a, HasServer api context)
=> HasServer (QueryParams sym a :> api) context where
type ServerT (QueryParams sym a :> api) m =
[a] -> ServerT api m
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
route Proxy context subserver = route (Proxy :: Proxy api) context $
subserver `addParameterCheck` withRequest paramsCheck
where
paramname = cs $ symbolVal (Proxy :: Proxy sym)
paramsCheck req =
case partitionEithers $ fmap parseQueryParam params of
([], parsed) -> return parsed
(errs, _) -> delayedFailFatal err400
{ errBody = cs $ "Error parsing query parameter(s) "
<> paramname <> " failed: "
<> T.intercalate ", " errs
}
where
params :: [T.Text]
params = mapMaybe snd
. filter (looksLikeParam . fst)
. parseQueryText
. rawQueryString
$ req
looksLikeParam name = name == paramname || name == (paramname <> "[]")
instance (KnownSymbol sym, HasServer api context)
=> HasServer (QueryFlag sym :> api) context where
type ServerT (QueryFlag sym :> api) m =
Bool -> ServerT api m
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
route Proxy context subserver =
let querytext r = parseQueryText $ rawQueryString r
param r = case lookup paramname (querytext r) of
Just Nothing -> True
Just (Just v) -> examine v
Nothing -> False
in route (Proxy :: Proxy api) context (passToServer subserver param)
where paramname = cs $ symbolVal (Proxy :: Proxy sym)
examine v | v == "true" || v == "1" || v == "" = True
| otherwise = False
instance HasServer Raw context where
type ServerT Raw m = Tagged m Application
hoistServerWithContext _ _ _ = retag
route Proxy _ rawApplication = RawRouter $ \ env request respond -> runResourceT $ do
r <- runDelayed rawApplication env request
liftIO $ go r request respond
where go r request respond = case r of
Route app -> untag app request (respond . Route)
Fail a -> respond $ Fail a
FailFatal e -> respond $ FailFatal e
instance ( AllCTUnrender list a, HasServer api context, SBoolI (FoldLenient mods)
) => HasServer (ReqBody' mods list a :> api) context where
type ServerT (ReqBody' mods list a :> api) m =
If (FoldLenient mods) (Either String a) a -> ServerT api m
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
route Proxy context subserver
= route (Proxy :: Proxy api) context $
addBodyCheck subserver ctCheck bodyCheck
where
ctCheck = withRequest $ \ request -> do
let contentTypeH = fromMaybe "application/octet-stream"
$ lookup hContentType $ requestHeaders request
case canHandleCTypeH (Proxy :: Proxy list) (cs contentTypeH) :: Maybe (BL.ByteString -> Either String a) of
Nothing -> delayedFail err415
Just f -> return f
bodyCheck f = withRequest $ \ request -> do
mrqbody <- f <$> liftIO (lazyRequestBody request)
case sbool :: SBool (FoldLenient mods) of
STrue -> return mrqbody
SFalse -> case mrqbody of
Left e -> delayedFailFatal err400 { errBody = cs e }
Right v -> return v
instance (KnownSymbol path, HasServer api context) => HasServer (path :> api) context where
type ServerT (path :> api) m = ServerT api m
route Proxy context subserver =
pathRouter
(cs (symbolVal proxyPath))
(route (Proxy :: Proxy api) context subserver)
where proxyPath = Proxy :: Proxy path
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt s
instance HasServer api context => HasServer (RemoteHost :> api) context where
type ServerT (RemoteHost :> api) m = SockAddr -> ServerT api m
route Proxy context subserver =
route (Proxy :: Proxy api) context (passToServer subserver remoteHost)
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
instance HasServer api context => HasServer (IsSecure :> api) context where
type ServerT (IsSecure :> api) m = IsSecure -> ServerT api m
route Proxy context subserver =
route (Proxy :: Proxy api) context (passToServer subserver secure)
where secure req = if isSecure req then Secure else NotSecure
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
instance HasServer api context => HasServer (Vault :> api) context where
type ServerT (Vault :> api) m = Vault -> ServerT api m
route Proxy context subserver =
route (Proxy :: Proxy api) context (passToServer subserver vault)
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
instance HasServer api context => HasServer (HttpVersion :> api) context where
type ServerT (HttpVersion :> api) m = HttpVersion -> ServerT api m
route Proxy context subserver =
route (Proxy :: Proxy api) context (passToServer subserver httpVersion)
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
instance HasServer api ctx => HasServer (Summary desc :> api) ctx where
type ServerT (Summary desc :> api) m = ServerT api m
route _ = route (Proxy :: Proxy api)
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt s
instance HasServer api ctx => HasServer (Description desc :> api) ctx where
type ServerT (Description desc :> api) m = ServerT api m
route _ = route (Proxy :: Proxy api)
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt s
data EmptyServer = EmptyServer deriving (Typeable, Eq, Show, Bounded, Enum)
emptyServer :: ServerT EmptyAPI m
emptyServer = Tagged EmptyServer
instance HasServer EmptyAPI context where
type ServerT EmptyAPI m = Tagged m EmptyServer
route Proxy _ _ = StaticRouter mempty mempty
hoistServerWithContext _ _ _ = retag
instance ( KnownSymbol realm
, HasServer api context
, HasContextEntry context (BasicAuthCheck usr)
)
=> HasServer (BasicAuth realm usr :> api) context where
type ServerT (BasicAuth realm usr :> api) m = usr -> ServerT api m
route Proxy context subserver =
route (Proxy :: Proxy api) context (subserver `addAuthCheck` authCheck)
where
realm = BC8.pack $ symbolVal (Proxy :: Proxy realm)
basicAuthContext = getContextEntry context
authCheck = withRequest $ \ req -> runBasicAuth req realm basicAuthContext
hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy :: Proxy api) pc nt . s
ct_wildcard :: B.ByteString
ct_wildcard = "*" <> "/" <> "*"
instance (HasContextEntry context (NamedContext name subContext), HasServer subApi subContext)
=> HasServer (WithNamedContext name subContext subApi) context where
type ServerT (WithNamedContext name subContext subApi) m =
ServerT subApi m
route Proxy context delayed =
route subProxy subContext delayed
where
subProxy :: Proxy subApi
subProxy = Proxy
subContext :: Context subContext
subContext = descendIntoNamedContext (Proxy :: Proxy name) context
hoistServerWithContext _ _ nt s = hoistServerWithContext (Proxy :: Proxy subApi) (Proxy :: Proxy subContext) nt s
#ifdef HAS_TYPE_ERROR
instance TypeError (HasServerArrowKindError arr) => HasServer ((arr :: k -> l) :> api) context
where
type ServerT (arr :> api) m = TypeError (HasServerArrowKindError arr)
route _ _ _ = error "servant-server panic: impossible happened in HasServer (arr :> api)"
hoistServerWithContext _ _ _ = id
type HasServerArrowKindError arr =
'Text "Expected something of kind Symbol or *, got: k -> l on the LHS of ':>'."
':$$: 'Text "Maybe you haven't applied enough arguments to"
':$$: 'ShowType arr
instance TypeError (HasServerArrowTypeError a b) => HasServer (a -> b) context
where
type ServerT (a -> b) m = TypeError (HasServerArrowTypeError a b)
route _ _ _ = error "servant-server panic: impossible happened in HasServer (a -> b)"
hoistServerWithContext _ _ _ = id
type HasServerArrowTypeError a b =
'Text "No instance HasServer (a -> b)."
':$$: 'Text "Maybe you have used '->' instead of ':>' between "
':$$: 'ShowType a
':$$: 'Text "and"
':$$: 'ShowType b
#endif