{-# LANGUAGE AllowAmbiguousTypes #-} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE CPP #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE InstanceSigs #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PolyKinds #-} {-# LANGUAGE QuantifiedConstraints #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TupleSections #-} {-# LANGUAGE TypeApplications #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE UndecidableInstances #-} module Servant.Server.Internal ( module Servant.Server.Internal , module Servant.Server.Internal.BasicAuth , module Servant.Server.Internal.Context , module Servant.Server.Internal.Delayed , module Servant.Server.Internal.DelayedIO , module Servant.Server.Internal.ErrorFormatter , module Servant.Server.Internal.Handler , module Servant.Server.Internal.Router , module Servant.Server.Internal.RouteResult , module Servant.Server.Internal.RoutingApplication , module Servant.Server.Internal.ServerError ) where import Control.Monad (join, when) import Control.Monad.Trans (liftIO, lift) import Control.Monad.Trans.Resource (runResourceT, ReleaseKey) import Data.Acquire 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.Constraint (Constraint, Dict(..)) import Data.Either (partitionEithers) import Data.Maybe (fromMaybe, isNothing, mapMaybe, maybeToList) 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.Generics import GHC.TypeLits (KnownNat, KnownSymbol, TypeError, symbolVal) import qualified Network.HTTP.Media as NHM import Network.HTTP.Types hiding (Header, ResponseHeaders) import Network.Socket (SockAddr) import Network.Wai (Application, Request, httpVersion, isSecure, lazyRequestBody, queryString, remoteHost, getRequestBodyChunk, requestHeaders, requestMethod, responseLBS, responseStream, vault) import Prelude () import Prelude.Compat import Servant.API ((:<|>) (..), (:>), Accept (..), BasicAuth, Capture', CaptureAll, Description, EmptyAPI, Fragment, FramingRender (..), FramingUnrender (..), FromSourceIO (..), Header', If, IsSecure (..), NoContentVerb, QueryFlag, QueryParam', QueryParams, Raw, ReflectMethod (reflectMethod), RemoteHost, ReqBody', SBool (..), SBoolI (..), SourceIO, Stream, StreamBody', Summary, ToSourceIO (..), Vault, Verb, WithNamedContext, WithResource, NamedRoutes) import Servant.API.Generic (GenericMode(..), ToServant, ToServantApi, GServantProduct, toServant, fromServant) import Servant.API.ContentTypes (AcceptHeader (..), AllCTRender (..), AllCTUnrender (..), AllMime, MimeRender (..), MimeUnrender (..), NoContent, canHandleAcceptH) import Servant.API.Modifiers (FoldLenient, FoldRequired, RequestArgument, unfoldRequestArgument) import Servant.API.ResponseHeaders (GetHeaders, Headers, getHeaders, getResponse) import Servant.API.Status (statusFromNat) import qualified Servant.Types.SourceT as S import Servant.API.TypeErrors import Web.HttpApiData (FromHttpApiData, parseHeader, parseQueryParam, parseUrlPiece, parseUrlPieces) import Data.Kind (Type) import Servant.Server.Internal.BasicAuth import Servant.Server.Internal.Context import Servant.Server.Internal.Delayed import Servant.Server.Internal.DelayedIO import Servant.Server.Internal.ErrorFormatter import Servant.Server.Internal.Handler import Servant.Server.Internal.Router import Servant.Server.Internal.RouteResult import Servant.Server.Internal.RoutingApplication import Servant.Server.Internal.ServerError import GHC.TypeLits (ErrorMessage (..), TypeError) import Servant.API.TypeLevel (AtLeastOneFragment, FragmentUnique) 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 -- * Instances -- | A server for @a ':<|>' b@ first tries to match the request against the route -- represented by @a@ and if it fails tries @b@. You must provide a request -- handler for each route. -- -- > type MyApi = "books" :> Get '[JSON] [Book] -- GET /books -- > :<|> "books" :> ReqBody Book :> Post '[JSON] Book -- POST /books -- > -- > server :: Server MyApi -- > server = listAllBooks :<|> postBook -- > where listAllBooks = ... -- > postBook book = ... 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 -- | This is better than 'enter', as it's tailor made for 'HasServer'. hoistServerWithContext _ pc nt (a :<|> b) = hoistServerWithContext (Proxy :: Proxy a) pc nt a :<|> hoistServerWithContext (Proxy :: Proxy b) pc nt b -- | If you use 'Capture' in one of the endpoints for your API, -- this automatically requires your server-side handler to be a function -- that takes an argument of the type specified by the 'Capture'. -- This lets servant worry about getting it from the URL and turning -- it into a value of the type you specify. -- -- You can control how it'll be converted from 'Text' to your type -- by simply providing an instance of 'FromHttpApiData' for your type. -- -- Example: -- -- > type MyApi = "books" :> Capture "isbn" Text :> Get '[JSON] Book -- > -- > server :: Server MyApi -- > server = getBook -- > where getBook :: Text -> Handler Book -- > getBook isbn = ... instance (KnownSymbol capture, FromHttpApiData a, Typeable a , HasServer api context, SBoolI (FoldLenient mods) , HasContextEntry (MkContextWithErrorFormatter context) ErrorFormatters ) => HasServer (Capture' mods capture a :> api) context where type ServerT (Capture' mods capture 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 d = CaptureRouter [hint] $ route (Proxy :: Proxy api) context (addCapture d $ \ txt -> withRequest $ \ request -> case ( sbool :: SBool (FoldLenient mods) , parseUrlPiece txt :: Either T.Text a) of (SFalse, Left e) -> delayedFail $ formatError rep request $ cs e (SFalse, Right v) -> return v (STrue, piece) -> return $ (either (Left . cs) Right) piece) where rep = typeRep (Proxy :: Proxy Capture') formatError = urlParseErrorFormatter $ getContextEntry (mkContextWithErrorFormatter context) hint = CaptureHint (T.pack $ symbolVal $ Proxy @capture) (typeRep (Proxy :: Proxy a)) -- | If you use 'CaptureAll' in one of the endpoints for your API, -- this automatically requires your server-side handler to be a -- function that takes an argument of a list of the type specified by -- the 'CaptureAll'. This lets servant worry about getting values from -- the URL and turning them into values of the type you specify. -- -- You can control how they'll be converted from 'Text' to your type -- by simply providing an instance of 'FromHttpApiData' for your type. -- -- Example: -- -- > type MyApi = "src" :> CaptureAll "segments" Text :> Get '[JSON] SourceFile -- > -- > server :: Server MyApi -- > server = getSourceFile -- > where getSourceFile :: [Text] -> Handler Book -- > getSourceFile pathSegments = ... instance (KnownSymbol capture, FromHttpApiData a, Typeable a , HasServer api context , HasContextEntry (MkContextWithErrorFormatter context) ErrorFormatters ) => 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 [hint] $ route (Proxy :: Proxy api) context (addCapture d $ \ txts -> withRequest $ \ request -> case parseUrlPieces txts of Left e -> delayedFail $ formatError rep request $ cs e Right v -> return v ) where rep = typeRep (Proxy :: Proxy CaptureAll) formatError = urlParseErrorFormatter $ getContextEntry (mkContextWithErrorFormatter context) hint = CaptureHint (T.pack $ symbolVal $ Proxy @capture) (typeRep (Proxy :: Proxy [a])) -- | If you use 'WithResource' in one of the endpoints for your API Servant -- will provide the handler for this endpoint an argument of the specified type. -- The lifespan of this resource will be automatically managed by Servant. This -- resource will be created before the handler starts and it will be destoyed -- after it ends. A new resource is created for each request to the endpoint. -- The creation and destruction are done using a 'Data.Acquire.Acquire' -- provided via server 'Context'. -- -- Example -- -- > type MyApi = WithResource Handle :> "writeToFile" :> Post '[JSON] NoContent -- > -- > server :: Server MyApi -- > server = writeToFile -- > where writeToFile :: (ReleaseKey, Handle) -> Handler NoContent -- > writeToFile (_, h) = hPutStrLn h "message" -- -- In addition to the resource, the handler will also receive a 'ReleaseKey' -- which can be used to deallocate the resource before the end of the request -- if desired. instance (HasServer api ctx, HasContextEntry ctx (Acquire a)) => HasServer (WithResource a :> api) ctx where type ServerT (WithResource a :> api) m = (ReleaseKey, a) -> ServerT api m hoistServerWithContext _ pc nt s = hoistServerWithContext (Proxy @api) pc nt . s route Proxy context d = route (Proxy @api) context (d `addParameterCheck` allocateResource) where allocateResource :: DelayedIO (ReleaseKey, a) allocateResource = DelayedIO $ lift $ allocateAcquire (getContextEntry context) 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 -- This has switched between using 'Fail' and 'FailFatal' a number of -- times. If the 'acceptCheck' is run after the body check (which would -- be morally right), then we have to set this to 'FailFatal', because -- the body check is not reversible, and therefore backtracking after the -- body check is no longer an option. However, we now run the accept -- check before the body check and can therefore afford to make it -- recoverable. acceptCheck :: (AllMime list) => Proxy list -> AcceptHeader -> DelayedIO () acceptCheck proxy accH | canHandleAcceptH proxy 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 = getAcceptHeader 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 accH b of Nothing -> FailFatal err406 -- this should not happen (checked before), so we make it fatal if it does Just (contentT, body) -> let bdy = if allowedMethodHead method request then "" else body in Route $ responseLBS status ((hContentType, cs contentT) : headers) bdy noContentRouter :: Method -> Status -> Delayed env (Handler b) -> Router env noContentRouter method status action = leafRouter route' where route' env request respond = runAction (action `addMethodCheck` methodCheck method request) env request respond $ \ _output -> Route $ responseLBS status [] "" 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 = statusFromNat (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 = statusFromNat (Proxy :: Proxy status) instance (ReflectMethod method) => HasServer (NoContentVerb method) context where type ServerT (NoContentVerb method) m = m NoContent hoistServerWithContext _ _ nt s = nt s route Proxy _ = noContentRouter method status204 where method = reflectMethod (Proxy :: Proxy method) instance {-# OVERLAPPABLE #-} ( MimeRender ctype chunk, ReflectMethod method, KnownNat status, FramingRender framing, ToSourceIO chunk a ) => HasServer (Stream method status framing ctype a) context where type ServerT (Stream method status framing ctype a) m = m a hoistServerWithContext _ _ nt s = nt s route Proxy _ = streamRouter ([],) method status (Proxy :: Proxy framing) (Proxy :: Proxy ctype) where method = reflectMethod (Proxy :: Proxy method) status = statusFromNat (Proxy :: Proxy status) instance {-# OVERLAPPING #-} ( MimeRender ctype chunk, ReflectMethod method, KnownNat status, FramingRender framing, ToSourceIO chunk a, GetHeaders (Headers h a) ) => HasServer (Stream method status framing ctype (Headers h a)) context where type ServerT (Stream method status framing ctype (Headers h a)) m = m (Headers h a) 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 = statusFromNat (Proxy :: Proxy status) streamRouter :: forall ctype a c chunk env framing. (MimeRender ctype chunk, FramingRender framing, ToSourceIO chunk a) => (c -> ([(HeaderName, B.ByteString)], a)) -> Method -> Status -> Proxy framing -> Proxy ctype -> Delayed env (Handler c) -> Router env streamRouter splitHeaders method status framingproxy ctypeproxy action = leafRouter $ \env request respond -> let AcceptHeader accH = getAcceptHeader 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 sourceT = toSourceIO fa S.SourceT kStepLBS = framingRender framingproxy (mimeRender ctypeproxy :: chunk -> BL.ByteString) sourceT in Route $ responseStream status (contentHeader : headers) $ \write flush -> do let loop S.Stop = flush loop (S.Error err) = fail err -- TODO: throw better error loop (S.Skip s) = loop s loop (S.Effect ms) = ms >>= loop loop (S.Yield lbs s) = do write (BB.lazyByteString lbs) flush loop s kStepLBS loop -- | If you use 'Header' in one of the endpoints for your API, -- this automatically requires your server-side handler to be a function -- that takes an argument of the type specified by 'Header'. -- This lets servant worry about extracting it from the request and turning -- it into a value of the type you specify. -- -- All it asks is for a 'FromHttpApiData' instance. -- -- Example: -- -- > newtype Referer = Referer Text -- > deriving (Eq, Show, FromHttpApiData) -- > -- > -- GET /view-my-referer -- > type MyApi = "view-my-referer" :> Header "Referer" Referer :> Get '[JSON] Referer -- > -- > server :: Server MyApi -- > server = viewReferer -- > where viewReferer :: Referer -> Handler referer -- > viewReferer referer = return referer instance (KnownSymbol sym, FromHttpApiData a, HasServer api context , SBoolI (FoldRequired mods), SBoolI (FoldLenient mods) , HasContextEntry (MkContextWithErrorFormatter context) ErrorFormatters ) => 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 rep = typeRep (Proxy :: Proxy Header') formatError = headerParseErrorFormatter $ getContextEntry (mkContextWithErrorFormatter context) 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 $ formatError rep req $ "Header " <> headerName <> " is required" errSt e = delayedFailFatal $ formatError rep req $ cs $ "Error parsing header " <> headerName <> " failed: " <> e -- | If you use @'QueryParam' "author" Text@ in one of the endpoints for your API, -- this automatically requires your server-side handler to be a function -- that takes an argument of type @'Maybe' 'Text'@. -- -- This lets servant worry about looking it up in the query string -- and turning it into a value of the type you specify, enclosed -- in 'Maybe', because it may not be there and servant would then -- hand you 'Nothing'. -- -- You can control how it'll be converted from 'Text' to your type -- by simply providing an instance of 'FromHttpApiData' for your type. -- -- Example: -- -- > type MyApi = "books" :> QueryParam "author" Text :> Get '[JSON] [Book] -- > -- > server :: Server MyApi -- > server = getBooksBy -- > where getBooksBy :: Maybe Text -> Handler [Book] -- > getBooksBy Nothing = ...return all books... -- > getBooksBy (Just author) = ...return books by the given author... instance ( KnownSymbol sym, FromHttpApiData a, HasServer api context , SBoolI (FoldRequired mods), SBoolI (FoldLenient mods) , HasContextEntry (MkContextWithErrorFormatter context) ErrorFormatters ) => 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 = queryToQueryText . queryString paramname = cs $ symbolVal (Proxy :: Proxy sym) rep = typeRep (Proxy :: Proxy QueryParam') formatError = urlParseErrorFormatter $ getContextEntry (mkContextWithErrorFormatter context) 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 $ formatError rep req $ cs $ "Query parameter " <> paramname <> " is required" errSt e = delayedFailFatal $ formatError rep req $ cs $ "Error parsing query parameter " <> paramname <> " failed: " <> e delayed = addParameterCheck subserver . withRequest $ \req -> parseParam req in route (Proxy :: Proxy api) context delayed -- | If you use @'QueryParams' "authors" Text@ in one of the endpoints for your API, -- this automatically requires your server-side handler to be a function -- that takes an argument of type @['Text']@. -- -- This lets servant worry about looking up 0 or more values in the query string -- associated to @authors@ and turning each of them into a value of -- the type you specify. -- -- You can control how the individual values are converted from 'Text' to your type -- by simply providing an instance of 'FromHttpApiData' for your type. -- -- Example: -- -- > type MyApi = "books" :> QueryParams "authors" Text :> Get '[JSON] [Book] -- > -- > server :: Server MyApi -- > server = getBooksBy -- > where getBooksBy :: [Text] -> Handler [Book] -- > getBooksBy authors = ...return all books by these authors... instance (KnownSymbol sym, FromHttpApiData a, HasServer api context , HasContextEntry (MkContextWithErrorFormatter context) ErrorFormatters) => 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 rep = typeRep (Proxy :: Proxy QueryParams) formatError = urlParseErrorFormatter $ getContextEntry (mkContextWithErrorFormatter context) paramname = cs $ symbolVal (Proxy :: Proxy sym) paramsCheck req = case partitionEithers $ fmap parseQueryParam params of ([], parsed) -> return parsed (errs, _) -> delayedFailFatal $ formatError rep req $ cs $ "Error parsing query parameter(s) " <> paramname <> " failed: " <> T.intercalate ", " errs where params :: [T.Text] params = mapMaybe snd . filter (looksLikeParam . fst) . queryToQueryText . queryString $ req looksLikeParam name = name == paramname || name == (paramname <> "[]") -- | If you use @'QueryFlag' "published"@ in one of the endpoints for your API, -- this automatically requires your server-side handler to be a function -- that takes an argument of type 'Bool'. -- -- Example: -- -- > type MyApi = "books" :> QueryFlag "published" :> Get '[JSON] [Book] -- > -- > server :: Server MyApi -- > server = getBooks -- > where getBooks :: Bool -> Handler [Book] -- > getBooks onlyPublished = ...return all books, or only the ones that are already published, depending on the argument... 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 = queryToQueryText . queryString param r = case lookup paramname (querytext r) of Just Nothing -> True -- param is there, with no value Just (Just v) -> examine v -- param with a value Nothing -> False -- param not in the query string 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 -- | Just pass the request to the underlying application and serve its response. -- -- Example: -- -- > type MyApi = "images" :> Raw -- > -- > server :: Server MyApi -- > server = serveDirectory "/var/www/images" instance HasServer Raw context where type ServerT Raw m = Tagged m Application hoistServerWithContext _ _ _ = retag route Proxy _ rawApplication = RawRouter $ \ env request respond -> runResourceT $ do -- note: a Raw application doesn't register any cleanup -- but for the sake of consistency, we nonetheless run -- the cleanup once its done 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 -- | If you use 'ReqBody' in one of the endpoints for your API, -- this automatically requires your server-side handler to be a function -- that takes an argument of the type specified by 'ReqBody'. -- The @Content-Type@ header is inspected, and the list provided is used to -- attempt deserialization. If the request does not have a @Content-Type@ -- header, it is treated as @application/octet-stream@ (as specified in -- [RFC 7231 section 3.1.1.5](http://tools.ietf.org/html/rfc7231#section-3.1.1.5)). -- This lets servant worry about extracting it from the request and turning -- it into a value of the type you specify. -- -- -- All it asks is for a 'FromJSON' instance. -- -- Example: -- -- > type MyApi = "books" :> ReqBody '[JSON] Book :> Post '[JSON] Book -- > -- > server :: Server MyApi -- > server = postBook -- > where postBook :: Book -> Handler Book -- > postBook book = ...insert into your db... instance ( AllCTUnrender list a, HasServer api context, SBoolI (FoldLenient mods) , HasContextEntry (MkContextWithErrorFormatter context) ErrorFormatters ) => 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 rep = typeRep (Proxy :: Proxy ReqBody') formatError = bodyParserErrorFormatter $ getContextEntry (mkContextWithErrorFormatter context) -- Content-Type check, we only lookup we can try to parse the request body ctCheck = withRequest $ \ request -> do -- See HTTP RFC 2616, section 7.2.1 -- http://www.w3.org/Protocols/rfc2616/rfc2616-sec7.html#sec7.2.1 -- See also "W3C Internet Media Type registration, consistency of use" -- http://www.w3.org/2001/tag/2002/0129-mime 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 -- Body check, we get a body parsing functions as the first argument. 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 $ formatError rep request e Right v -> return v instance ( FramingUnrender framing, FromSourceIO chunk a, MimeUnrender ctype chunk , HasServer api context ) => HasServer (StreamBody' mods framing ctype a :> api) context where type ServerT (StreamBody' mods framing ctype 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 $ addBodyCheck subserver ctCheck bodyCheck where ctCheck :: DelayedIO (SourceIO chunk -> a) -- TODO: do content-type check ctCheck = return fromSourceIO bodyCheck :: (SourceIO chunk -> a) -> DelayedIO a bodyCheck fromRS = withRequest $ \req -> do let mimeUnrender' = mimeUnrender (Proxy :: Proxy ctype) :: BL.ByteString -> Either String chunk let framingUnrender' = framingUnrender (Proxy :: Proxy framing) mimeUnrender' :: SourceIO B.ByteString -> SourceIO chunk let body = getRequestBodyChunk req let rs = S.fromAction B.null body let rs' = fromRS $ framingUnrender' rs return rs' -- | Make sure the incoming request starts with @"/path"@, strip it and -- pass the rest of the request path to @api@. 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 -- | Ignore @'Summary'@ in server handlers. 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 -- | Ignore @'Description'@ in server handlers. 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 -- | Singleton type representing a server that serves an empty API. data EmptyServer = EmptyServer deriving (Typeable, Eq, Show, Bounded, Enum) -- | Server for `EmptyAPI` emptyServer :: ServerT EmptyAPI m emptyServer = Tagged EmptyServer -- | The server for an `EmptyAPI` is `emptyServer`. -- -- > type MyApi = "nothing" :> EmptyApi -- > -- > server :: Server MyApi -- > server = emptyServer instance HasServer EmptyAPI context where type ServerT EmptyAPI m = Tagged m EmptyServer route Proxy _ _ = StaticRouter mempty mempty hoistServerWithContext _ _ _ = retag -- | Basic Authentication 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 -- * helpers ct_wildcard :: B.ByteString ct_wildcard = "*" <> "/" <> "*" getAcceptHeader :: Request -> AcceptHeader getAcceptHeader = AcceptHeader . fromMaybe ct_wildcard . lookup hAccept . requestHeaders -- * General Authentication -- * contexts 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 ------------------------------------------------------------------------------- -- Custom type errors ------------------------------------------------------------------------------- -- Erroring instance for 'HasServer' when a combinator is not fully applied instance TypeError (PartialApplication #if __GLASGOW_HASKELL__ >= 904 @(Type -> [Type] -> Constraint) #endif HasServer arr) => HasServer ((arr :: a -> b) :> sub) context where type ServerT (arr :> sub) _ = TypeError (PartialApplication (HasServer :: * -> [*] -> Constraint) arr) route = error "unreachable" hoistServerWithContext _ _ _ _ = error "unreachable" -- | This instance prevents from accidentally using '->' instead of ':>' -- -- >>> serve (Proxy :: Proxy (Capture "foo" Int -> Get '[JSON] Int)) (error "...") -- ... -- ...No instance HasServer (a -> b). -- ...Maybe you have used '->' instead of ':>' between -- ...Capture' '[] "foo" Int -- ...and -- ...Verb 'GET 200 '[JSON] Int -- ... -- -- >>> undefined :: Server (Capture "foo" Int -> Get '[JSON] Int) -- ... -- ...No instance HasServer (a -> b). -- ...Maybe you have used '->' instead of ':>' between -- ...Capture' '[] "foo" Int -- ...and -- ...Verb 'GET 200 '[JSON] Int -- ... -- 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 -- Erroring instances for 'HasServer' for unknown API combinators -- XXX: This omits the @context@ parameter, e.g.: -- -- "There is no instance for HasServer (Bool :> …)". Do we care ? instance {-# OVERLAPPABLE #-} TypeError (NoInstanceForSub #if __GLASGOW_HASKELL__ >= 904 @(Type -> [Type] -> Constraint) #endif HasServer ty) => HasServer (ty :> sub) context instance {-# OVERLAPPABLE #-} TypeError (NoInstanceFor (HasServer api context)) => HasServer api context -- | Ignore @'Fragment'@ in server handlers. -- See for more details. -- -- Example: -- -- > type MyApi = "books" :> Fragment Text :> Get '[JSON] [Book] -- > -- > server :: Server MyApi -- > server = getBooks -- > where getBooks :: Handler [Book] -- > getBooks = ...return all books... instance (AtLeastOneFragment api, FragmentUnique (Fragment a1 :> api), HasServer api context) => HasServer (Fragment a1 :> api) context where type ServerT (Fragment a1 :> api) m = ServerT api m route _ = route (Proxy :: Proxy api) hoistServerWithContext _ = hoistServerWithContext (Proxy :: Proxy api) -- $setup -- >>> import Servant -- | A type that specifies that an API record contains a server implementation. data AsServerT (m :: * -> *) instance GenericMode (AsServerT m) where type AsServerT m :- api = ServerT api m type AsServer = AsServerT Handler -- | Set of constraints required to convert to / from vanilla server types. type GServerConstraints api m = ( ToServant api (AsServerT m) ~ ServerT (ToServantApi api) m , GServantProduct (Rep (api (AsServerT m))) ) -- | This class is a necessary evil: in the implementation of 'HasServer' for -- @'NamedRoutes' api@, we essentially need the quantified constraint @forall -- m. 'GServerConstraints' m@ to hold. -- -- We cannot require do that directly as the definition of 'GServerConstraints' -- contains type family applications ('Rep' and 'ServerT'). The trick is to hide -- those type family applications behind a typeclass providing evidence for -- @'GServerConstraints' api m@ in the form of a dictionary, and require that -- @forall m. 'GServer' api m@ instead. -- -- Users shouldn't have to worry about this class, as the only possible instance -- is provided in this module for all record APIs. class GServer (api :: * -> *) (m :: * -> *) where gServerProof :: Dict (GServerConstraints api m) instance ( ToServant api (AsServerT m) ~ ServerT (ToServantApi api) m , GServantProduct (Rep (api (AsServerT m))) ) => GServer api m where gServerProof = Dict instance ( HasServer (ToServantApi api) context , forall m. Generic (api (AsServerT m)) , forall m. GServer api m ) => HasServer (NamedRoutes api) context where type ServerT (NamedRoutes api) m = api (AsServerT m) route :: Proxy (NamedRoutes api) -> Context context -> Delayed env (api (AsServerT Handler)) -> Router env route _ ctx delayed = case gServerProof @api @Handler of Dict -> route (Proxy @(ToServantApi api)) ctx (toServant <$> delayed) hoistServerWithContext :: forall m n. Proxy (NamedRoutes api) -> Proxy context -> (forall x. m x -> n x) -> api (AsServerT m) -> api (AsServerT n) hoistServerWithContext _ pctx nat server = case (gServerProof @api @m, gServerProof @api @n) of (Dict, Dict) -> fromServant servantSrvN where servantSrvM :: ServerT (ToServantApi api) m = toServant server servantSrvN :: ServerT (ToServantApi api) n = hoistServerWithContext (Proxy @(ToServantApi api)) pctx nat servantSrvM