{-# LANGUAGE CPP #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PolyKinds #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} #if !MIN_VERSION_base(4,8,0) {-# LANGUAGE OverlappingInstances #-} #endif module Servant.Server.Internal where #if !MIN_VERSION_base(4,8,0) import Control.Applicative ((<$>)) import Data.Monoid (Monoid, mappend, mempty) #endif import Control.Monad.Trans.Either (EitherT, runEitherT) import qualified Data.ByteString as B import qualified Data.ByteString.Lazy as BL import Data.IORef (newIORef, readIORef, writeIORef) import Data.List (unfoldr) import Data.Maybe (catMaybes, fromMaybe) import Data.String (fromString) import Data.String.Conversions (cs, (<>)) import Data.Text (Text) import qualified Data.Text as T import Data.Text.Encoding (decodeUtf8, encodeUtf8) import Data.Typeable import GHC.TypeLits (KnownSymbol, symbolVal) import Network.HTTP.Types hiding (Header, ResponseHeaders) import Network.Wai (Application, Request, Response, ResponseReceived, lazyRequestBody, pathInfo, rawQueryString, requestBody, requestHeaders, requestMethod, responseLBS, strictRequestBody) import Servant.API ((:<|>) (..), (:>), Capture, Delete, Get, Header, MatrixFlag, MatrixParam, MatrixParams, Patch, Post, Put, QueryFlag, QueryParam, QueryParams, Raw, ReqBody) import Servant.API.ContentTypes (AcceptHeader (..), AllCTRender (..), AllCTUnrender (..)) import Servant.API.ResponseHeaders (Headers, getResponse, GetHeaders, getHeaders) import Servant.Common.Text (FromText, fromText) import Servant.Server.Internal.ServantErr data ReqBodyState = Uncalled | Called !B.ByteString | Done !B.ByteString toApplication :: RoutingApplication -> Application toApplication ra request respond = do reqBodyRef <- newIORef Uncalled -- We may need to consume the requestBody more than once. In order to -- maintain the illusion that 'requestBody' works as expected, -- 'ReqBodyState' is introduced, and the complete body is memoized and -- returned as many times as requested with empty "Done" marker chunks in -- between. -- See https://github.com/haskell-servant/servant/issues/3 let memoReqBody = do ior <- readIORef reqBodyRef case ior of Uncalled -> do r <- BL.toStrict <$> strictRequestBody request writeIORef reqBodyRef $ Done r return r Called bs -> do writeIORef reqBodyRef $ Done bs return bs Done bs -> do writeIORef reqBodyRef $ Called bs return B.empty ra request{ requestBody = memoReqBody } (routingRespond . routeResult) where routingRespond :: Either RouteMismatch Response -> IO ResponseReceived routingRespond (Left NotFound) = respond $ responseLBS notFound404 [] "not found" routingRespond (Left WrongMethod) = respond $ responseLBS methodNotAllowed405 [] "method not allowed" routingRespond (Left (InvalidBody err)) = respond $ responseLBS badRequest400 [] $ fromString $ "invalid request body: " ++ err routingRespond (Left UnsupportedMediaType) = respond $ responseLBS unsupportedMediaType415 [] "unsupported media type" routingRespond (Left (HttpError status body)) = respond $ responseLBS status [] $ fromMaybe (BL.fromStrict $ statusMessage status) body routingRespond (Right response) = respond response -- Note that the ordering of the constructors has great significance! It -- determines the Ord instance and, consequently, the monoid instance. -- * Route mismatch data RouteMismatch = NotFound -- ^ the usual "not found" error | WrongMethod -- ^ a more informative "you just got the HTTP method wrong" error | UnsupportedMediaType -- ^ request body has unsupported media type | InvalidBody String -- ^ an even more informative "your json request body wasn't valid" error | HttpError Status (Maybe BL.ByteString) -- ^ an even even more informative arbitrary HTTP response code error. deriving (Eq, Ord, Show) instance Monoid RouteMismatch where mempty = NotFound -- The following isn't great, since it picks @InvalidBody@ based on -- alphabetical ordering, but any choice would be arbitrary. -- -- "As one judge said to the other, 'Be just and if you can't be just, be -- arbitrary'" -- William Burroughs mappend = max -- | A wrapper around @'Either' 'RouteMismatch' a@. newtype RouteResult a = RR { routeResult :: Either RouteMismatch a } deriving (Eq, Show) failWith :: RouteMismatch -> RouteResult a failWith = RR . Left succeedWith :: a -> RouteResult a succeedWith = RR . Right isMismatch :: RouteResult a -> Bool isMismatch (RR (Left _)) = True isMismatch _ = False -- | Like `null . pathInfo`, but works with redundant trailing slashes. pathIsEmpty :: Request -> Bool pathIsEmpty = f . processedPathInfo where f [] = True f [""] = True f _ = False -- | If we get a `Right`, it has precedence over everything else. -- -- This in particular means that if we could get several 'Right's, -- only the first we encounter would be taken into account. instance Monoid (RouteResult a) where mempty = RR $ Left mempty RR (Left x) `mappend` RR (Left y) = RR $ Left (x <> y) RR (Left _) `mappend` RR (Right y) = RR $ Right y r `mappend` _ = r type RoutingApplication = Request -- ^ the request, the field 'pathInfo' may be modified by url routing -> (RouteResult Response -> IO ResponseReceived) -> IO ResponseReceived splitMatrixParameters :: Text -> (Text, Text) splitMatrixParameters = T.break (== ';') parsePathInfo :: Request -> [Text] parsePathInfo = filter (/= "") . mergePairs . map splitMatrixParameters . pathInfo where mergePairs = concat . unfoldr pairToList pairToList [] = Nothing pairToList ((a, b):xs) = Just ([a, b], xs) -- | Returns a processed pathInfo from the request. -- -- In order to handle matrix parameters in the request correctly, the raw pathInfo needs to be -- processed, so routing works as intended. Therefor this function should be used to access -- the pathInfo for routing purposes. processedPathInfo :: Request -> [Text] processedPathInfo r = case pinfo of (x:xs) | T.head x == ';' -> xs _ -> pinfo where pinfo = parsePathInfo r class HasServer layout where type ServerT layout (m :: * -> *) :: * route :: Proxy layout -> Server layout -> RoutingApplication type Server layout = ServerT layout (EitherT ServantErr IO) -- * 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, HasServer b) => HasServer (a :<|> b) where type ServerT (a :<|> b) m = ServerT a m :<|> ServerT b m route Proxy (a :<|> b) request respond = route pa a request $ \mResponse -> if isMismatch mResponse then route pb b request $ \mResponse' -> respond (mResponse <> mResponse') else respond mResponse where pa = Proxy :: Proxy a pb = Proxy :: Proxy b captured :: FromText a => proxy (Capture sym a) -> Text -> Maybe a captured _ = fromText -- | 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 'FromText' for your type. -- -- Example: -- -- > type MyApi = "books" :> Capture "isbn" Text :> Get '[JSON] Book -- > -- > server :: Server MyApi -- > server = getBook -- > where getBook :: Text -> EitherT ServantErr IO Book -- > getBook isbn = ... instance (KnownSymbol capture, FromText a, HasServer sublayout) => HasServer (Capture capture a :> sublayout) where type ServerT (Capture capture a :> sublayout) m = a -> ServerT sublayout m route Proxy subserver request respond = case processedPathInfo request of (first : rest) -> case captured captureProxy first of Nothing -> respond $ failWith NotFound Just v -> route (Proxy :: Proxy sublayout) (subserver v) request{ pathInfo = rest } respond _ -> respond $ failWith NotFound where captureProxy = Proxy :: Proxy (Capture capture a) -- | If you have a 'Delete' endpoint in your API, -- the handler for this endpoint is meant to delete -- a resource. -- -- The code of the handler will, just like -- for 'Servant.API.Get.Get', 'Servant.API.Post.Post' and -- 'Servant.API.Put.Put', run in @EitherT ServantErr IO ()@. -- The 'Int' represents the status code and the 'String' a message -- to be returned. You can use 'Control.Monad.Trans.Either.left' to -- painlessly error out if the conditions for a successful deletion -- are not met. instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPABLE #-} #endif ( AllCTRender ctypes a ) => HasServer (Delete ctypes a) where type ServerT (Delete ctypes a) m = m a route Proxy action request respond | pathIsEmpty request && requestMethod request == methodDelete = do e <- runEitherT action respond $ case e of Right output -> do let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request case handleAcceptH (Proxy :: Proxy ctypes) (AcceptHeader accH) output of Nothing -> failWith UnsupportedMediaType Just (contentT, body) -> succeedWith $ responseLBS status200 [ ("Content-Type" , cs contentT)] body Left err -> succeedWith $ responseServantErr err | pathIsEmpty request && requestMethod request /= methodDelete = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif HasServer (Delete ctypes ()) where type ServerT (Delete ctypes ()) m = m () route Proxy action request respond | pathIsEmpty request && requestMethod request == methodDelete = do e <- runEitherT action respond . succeedWith $ case e of Right () -> responseLBS noContent204 [] "" Left err -> responseServantErr err | pathIsEmpty request && requestMethod request /= methodDelete = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- Add response headers instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif ( GetHeaders (Headers h v), AllCTRender ctypes v ) => HasServer (Delete ctypes (Headers h v)) where type ServerT (Delete ctypes (Headers h v)) m = m (Headers h v) route Proxy action request respond | pathIsEmpty request && requestMethod request == methodDelete = do e <- runEitherT action respond $ case e of Right output -> do let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request headers = getHeaders output case handleAcceptH (Proxy :: Proxy ctypes) (AcceptHeader accH) (getResponse output) of Nothing -> failWith UnsupportedMediaType Just (contentT, body) -> succeedWith $ responseLBS status200 ( ("Content-Type" , cs contentT) : headers) body Left err -> succeedWith $ responseServantErr err | pathIsEmpty request && requestMethod request /= methodDelete = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- | When implementing the handler for a 'Get' endpoint, -- just like for 'Servant.API.Delete.Delete', 'Servant.API.Post.Post' -- and 'Servant.API.Put.Put', the handler code runs in the -- @EitherT ServantErr IO@ monad, where the 'Int' represents -- the status code and the 'String' a message, returned in case of -- failure. You can quite handily use 'Control.Monad.Trans.EitherT.left' -- to quickly fail if some conditions are not met. -- -- If successfully returning a value, we use the type-level list, combined -- with the request's @Accept@ header, to encode the value for you -- (returning a status code of 200). If there was no @Accept@ header or it -- was @*\/\*@, we return encode using the first @Content-Type@ type on the -- list. instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPABLE #-} #endif ( AllCTRender ctypes a ) => HasServer (Get ctypes a) where type ServerT (Get ctypes a) m = m a route Proxy action request respond | pathIsEmpty request && requestMethod request == methodGet = do e <- runEitherT action respond $ case e of Right output -> do let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request case handleAcceptH (Proxy :: Proxy ctypes) (AcceptHeader accH) output of Nothing -> failWith UnsupportedMediaType Just (contentT, body) -> succeedWith $ responseLBS ok200 [ ("Content-Type" , cs contentT)] body Left err -> succeedWith $ responseServantErr err | pathIsEmpty request && requestMethod request /= methodGet = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- '()' ==> 204 No Content instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif HasServer (Get ctypes ()) where type ServerT (Get ctypes ()) m = m () route Proxy action request respond | pathIsEmpty request && requestMethod request == methodGet = do e <- runEitherT action respond . succeedWith $ case e of Right () -> responseLBS noContent204 [] "" Left err -> responseServantErr err | pathIsEmpty request && requestMethod request /= methodGet = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- Add response headers instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif ( GetHeaders (Headers h v), AllCTRender ctypes v ) => HasServer (Get ctypes (Headers h v)) where type ServerT (Get ctypes (Headers h v)) m = m (Headers h v) route Proxy action request respond | pathIsEmpty request && requestMethod request == methodGet = do e <- runEitherT action respond $ case e of Right output -> do let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request headers = getHeaders output case handleAcceptH (Proxy :: Proxy ctypes) (AcceptHeader accH) (getResponse output) of Nothing -> failWith UnsupportedMediaType Just (contentT, body) -> succeedWith $ responseLBS ok200 ( ("Content-Type" , cs contentT) : headers) body Left err -> succeedWith $ responseServantErr err | pathIsEmpty request && requestMethod request /= methodGet = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- | 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 'FromText' instance. -- -- Example: -- -- > newtype Referer = Referer Text -- > deriving (Eq, Show, FromText, ToText) -- > -- > -- GET /view-my-referer -- > type MyApi = "view-my-referer" :> Header "Referer" Referer :> Get '[JSON] Referer -- > -- > server :: Server MyApi -- > server = viewReferer -- > where viewReferer :: Referer -> EitherT ServantErr IO referer -- > viewReferer referer = return referer instance (KnownSymbol sym, FromText a, HasServer sublayout) => HasServer (Header sym a :> sublayout) where type ServerT (Header sym a :> sublayout) m = Maybe a -> ServerT sublayout m route Proxy subserver request respond = do let mheader = fromText . decodeUtf8 =<< lookup str (requestHeaders request) route (Proxy :: Proxy sublayout) (subserver mheader) request respond where str = fromString $ symbolVal (Proxy :: Proxy sym) -- | When implementing the handler for a 'Post' endpoint, -- just like for 'Servant.API.Delete.Delete', 'Servant.API.Get.Get' -- and 'Servant.API.Put.Put', the handler code runs in the -- @EitherT ServantErr IO@ monad, where the 'Int' represents -- the status code and the 'String' a message, returned in case of -- failure. You can quite handily use 'Control.Monad.Trans.EitherT.left' -- to quickly fail if some conditions are not met. -- -- If successfully returning a value, we use the type-level list, combined -- with the request's @Accept@ header, to encode the value for you -- (returning a status code of 201). If there was no @Accept@ header or it -- was @*\/\*@, we return encode using the first @Content-Type@ type on the -- list. instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPABLE #-} #endif ( AllCTRender ctypes a ) => HasServer (Post ctypes a) where type ServerT (Post ctypes a) m = m a route Proxy action request respond | pathIsEmpty request && requestMethod request == methodPost = do e <- runEitherT action respond $ case e of Right output -> do let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request case handleAcceptH (Proxy :: Proxy ctypes) (AcceptHeader accH) output of Nothing -> failWith UnsupportedMediaType Just (contentT, body) -> succeedWith $ responseLBS status201 [ ("Content-Type" , cs contentT)] body Left err -> succeedWith $ responseServantErr err | pathIsEmpty request && requestMethod request /= methodPost = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif HasServer (Post ctypes ()) where type ServerT (Post ctypes ()) m = m () route Proxy action request respond | pathIsEmpty request && requestMethod request == methodPost = do e <- runEitherT action respond . succeedWith $ case e of Right () -> responseLBS noContent204 [] "" Left err -> responseServantErr err | pathIsEmpty request && requestMethod request /= methodPost = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- Add response headers instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif ( GetHeaders (Headers h v), AllCTRender ctypes v ) => HasServer (Post ctypes (Headers h v)) where type ServerT (Post ctypes (Headers h v)) m = m (Headers h v) route Proxy action request respond | pathIsEmpty request && requestMethod request == methodPost = do e <- runEitherT action respond $ case e of Right output -> do let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request headers = getHeaders output case handleAcceptH (Proxy :: Proxy ctypes) (AcceptHeader accH) (getResponse output) of Nothing -> failWith UnsupportedMediaType Just (contentT, body) -> succeedWith $ responseLBS status201 ( ("Content-Type" , cs contentT) : headers) body Left err -> succeedWith $ responseServantErr err | pathIsEmpty request && requestMethod request /= methodPost = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- | When implementing the handler for a 'Put' endpoint, -- just like for 'Servant.API.Delete.Delete', 'Servant.API.Get.Get' -- and 'Servant.API.Post.Post', the handler code runs in the -- @EitherT ServantErr IO@ monad, where the 'Int' represents -- the status code and the 'String' a message, returned in case of -- failure. You can quite handily use 'Control.Monad.Trans.EitherT.left' -- to quickly fail if some conditions are not met. -- -- If successfully returning a value, we use the type-level list, combined -- with the request's @Accept@ header, to encode the value for you -- (returning a status code of 200). If there was no @Accept@ header or it -- was @*\/\*@, we return encode using the first @Content-Type@ type on the -- list. instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPABLE #-} #endif ( AllCTRender ctypes a) => HasServer (Put ctypes a) where type ServerT (Put ctypes a) m = m a route Proxy action request respond | pathIsEmpty request && requestMethod request == methodPut = do e <- runEitherT action respond $ case e of Right output -> do let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request case handleAcceptH (Proxy :: Proxy ctypes) (AcceptHeader accH) output of Nothing -> failWith UnsupportedMediaType Just (contentT, body) -> succeedWith $ responseLBS status200 [ ("Content-Type" , cs contentT)] body Left err -> succeedWith $ responseServantErr err | pathIsEmpty request && requestMethod request /= methodPut = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif HasServer (Put ctypes ()) where type ServerT (Put ctypes ()) m = m () route Proxy action request respond | pathIsEmpty request && requestMethod request == methodPut = do e <- runEitherT action respond . succeedWith $ case e of Right () -> responseLBS noContent204 [] "" Left err -> responseServantErr err | pathIsEmpty request && requestMethod request /= methodPut = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- Add response headers instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif ( GetHeaders (Headers h v), AllCTRender ctypes v ) => HasServer (Put ctypes (Headers h v)) where type ServerT (Put ctypes (Headers h v)) m = m (Headers h v) route Proxy action request respond | pathIsEmpty request && requestMethod request == methodPut = do e <- runEitherT action respond $ case e of Right output -> do let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request headers = getHeaders output case handleAcceptH (Proxy :: Proxy ctypes) (AcceptHeader accH) (getResponse output) of Nothing -> failWith UnsupportedMediaType Just (contentT, body) -> succeedWith $ responseLBS status200 ( ("Content-Type" , cs contentT) : headers) body Left err -> succeedWith $ responseServantErr err | pathIsEmpty request && requestMethod request /= methodPut = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- | When implementing the handler for a 'Patch' endpoint, -- just like for 'Servant.API.Delete.Delete', 'Servant.API.Get.Get' -- and 'Servant.API.Put.Put', the handler code runs in the -- @EitherT ServantErr IO@ monad, where the 'Int' represents -- the status code and the 'String' a message, returned in case of -- failure. You can quite handily use 'Control.Monad.Trans.EitherT.left' -- to quickly fail if some conditions are not met. -- -- If successfully returning a value, we just require that its type has -- a 'ToJSON' instance and servant takes care of encoding it for you, -- yielding status code 200 along the way. instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPABLE #-} #endif ( AllCTRender ctypes a) => HasServer (Patch ctypes a) where type ServerT (Patch ctypes a) m = m a route Proxy action request respond | pathIsEmpty request && requestMethod request == methodPatch = do e <- runEitherT action respond $ case e of Right output -> do let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request case handleAcceptH (Proxy :: Proxy ctypes) (AcceptHeader accH) output of Nothing -> failWith UnsupportedMediaType Just (contentT, body) -> succeedWith $ responseLBS status200 [ ("Content-Type" , cs contentT)] body Left err -> succeedWith $ responseServantErr err | pathIsEmpty request && requestMethod request /= methodPatch = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif HasServer (Patch ctypes ()) where type ServerT (Patch ctypes ()) m = m () route Proxy action request respond | pathIsEmpty request && requestMethod request == methodPatch = do e <- runEitherT action respond . succeedWith $ case e of Right () -> responseLBS noContent204 [] "" Left err -> responseServantErr err | pathIsEmpty request && requestMethod request /= methodPatch = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- Add response headers instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif ( GetHeaders (Headers h v), AllCTRender ctypes v ) => HasServer (Patch ctypes (Headers h v)) where type ServerT (Patch ctypes (Headers h v)) m = m (Headers h v) route Proxy action request respond | pathIsEmpty request && requestMethod request == methodPatch = do e <- runEitherT action respond $ case e of Right outpatch -> do let accH = fromMaybe ct_wildcard $ lookup hAccept $ requestHeaders request headers = getHeaders outpatch case handleAcceptH (Proxy :: Proxy ctypes) (AcceptHeader accH) (getResponse outpatch) of Nothing -> failWith UnsupportedMediaType Just (contentT, body) -> succeedWith $ responseLBS status200 ( ("Content-Type" , cs contentT) : headers) body Left err -> succeedWith $ responseServantErr err | pathIsEmpty request && requestMethod request /= methodPatch = respond $ failWith WrongMethod | otherwise = respond $ failWith NotFound -- | 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 'FromText' for your type. -- -- Example: -- -- > type MyApi = "books" :> QueryParam "author" Text :> Get '[JSON] [Book] -- > -- > server :: Server MyApi -- > server = getBooksBy -- > where getBooksBy :: Maybe Text -> EitherT ServantErr IO [Book] -- > getBooksBy Nothing = ...return all books... -- > getBooksBy (Just author) = ...return books by the given author... instance (KnownSymbol sym, FromText a, HasServer sublayout) => HasServer (QueryParam sym a :> sublayout) where type ServerT (QueryParam sym a :> sublayout) m = Maybe a -> ServerT sublayout m route Proxy subserver request respond = do let querytext = parseQueryText $ rawQueryString request param = case lookup paramname querytext of Nothing -> Nothing -- param absent from the query string Just Nothing -> Nothing -- param present with no value -> Nothing Just (Just v) -> fromText v -- if present, we try to convert to -- the right type route (Proxy :: Proxy sublayout) (subserver param) request respond where paramname = cs $ symbolVal (Proxy :: Proxy sym) -- | 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 'FromText' for your type. -- -- Example: -- -- > type MyApi = "books" :> QueryParams "authors" Text :> Get '[JSON] [Book] -- > -- > server :: Server MyApi -- > server = getBooksBy -- > where getBooksBy :: [Text] -> EitherT ServantErr IO [Book] -- > getBooksBy authors = ...return all books by these authors... instance (KnownSymbol sym, FromText a, HasServer sublayout) => HasServer (QueryParams sym a :> sublayout) where type ServerT (QueryParams sym a :> sublayout) m = [a] -> ServerT sublayout m route Proxy subserver request respond = do let querytext = parseQueryText $ rawQueryString request -- if sym is "foo", we look for query string parameters -- named "foo" or "foo[]" and call fromText on the -- corresponding values parameters = filter looksLikeParam querytext values = catMaybes $ map (convert . snd) parameters route (Proxy :: Proxy sublayout) (subserver values) request respond where paramname = cs $ symbolVal (Proxy :: Proxy sym) looksLikeParam (name, _) = name == paramname || name == (paramname <> "[]") convert Nothing = Nothing convert (Just v) = fromText v -- | 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 -> EitherT ServantErr IO [Book] -- > getBooks onlyPublished = ...return all books, or only the ones that are already published, depending on the argument... instance (KnownSymbol sym, HasServer sublayout) => HasServer (QueryFlag sym :> sublayout) where type ServerT (QueryFlag sym :> sublayout) m = Bool -> ServerT sublayout m route Proxy subserver request respond = do let querytext = parseQueryText $ rawQueryString request param = case lookup paramname querytext 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 route (Proxy :: Proxy sublayout) (subserver param) request respond where paramname = cs $ symbolVal (Proxy :: Proxy sym) examine v | v == "true" || v == "1" || v == "" = True | otherwise = False parseMatrixText :: B.ByteString -> QueryText parseMatrixText = parseQueryText -- | If you use @'MatrixParam' "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 'FromText' for your type. -- -- Example: -- -- > type MyApi = "books" :> MatrixParam "author" Text :> Get [Book] -- > -- > server :: Server MyApi -- > server = getBooksBy -- > where getBooksBy :: Maybe Text -> EitherT ServantErr IO [Book] -- > getBooksBy Nothing = ...return all books... -- > getBooksBy (Just author) = ...return books by the given author... instance (KnownSymbol sym, FromText a, HasServer sublayout) => HasServer (MatrixParam sym a :> sublayout) where type ServerT (MatrixParam sym a :> sublayout) m = Maybe a -> ServerT sublayout m route Proxy subserver request respond = case parsePathInfo request of (first : _) -> do let querytext = parseMatrixText . encodeUtf8 $ T.tail first param = case lookup paramname querytext of Nothing -> Nothing -- param absent from the query string Just Nothing -> Nothing -- param present with no value -> Nothing Just (Just v) -> fromText v -- if present, we try to convert to -- the right type route (Proxy :: Proxy sublayout) (subserver param) request respond _ -> route (Proxy :: Proxy sublayout) (subserver Nothing) request respond where paramname = cs $ symbolVal (Proxy :: Proxy sym) -- | If you use @'MatrixParams' "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 'FromText' for your type. -- -- Example: -- -- > type MyApi = "books" :> MatrixParams "authors" Text :> Get [Book] -- > -- > server :: Server MyApi -- > server = getBooksBy -- > where getBooksBy :: [Text] -> EitherT ServantErr IO [Book] -- > getBooksBy authors = ...return all books by these authors... instance (KnownSymbol sym, FromText a, HasServer sublayout) => HasServer (MatrixParams sym a :> sublayout) where type ServerT (MatrixParams sym a :> sublayout) m = [a] -> ServerT sublayout m route Proxy subserver request respond = case parsePathInfo request of (first : _) -> do let matrixtext = parseMatrixText . encodeUtf8 $ T.tail first -- if sym is "foo", we look for matrix parameters -- named "foo" or "foo[]" and call fromText on the -- corresponding values parameters = filter looksLikeParam matrixtext values = catMaybes $ map (convert . snd) parameters route (Proxy :: Proxy sublayout) (subserver values) request respond _ -> route (Proxy :: Proxy sublayout) (subserver []) request respond where paramname = cs $ symbolVal (Proxy :: Proxy sym) looksLikeParam (name, _) = name == paramname || name == (paramname <> "[]") convert Nothing = Nothing convert (Just v) = fromText v -- | If you use @'MatrixFlag' "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" :> MatrixFlag "published" :> Get [Book] -- > -- > server :: Server MyApi -- > server = getBooks -- > where getBooks :: Bool -> EitherT ServantErr IO [Book] -- > getBooks onlyPublished = ...return all books, or only the ones that are already published, depending on the argument... instance (KnownSymbol sym, HasServer sublayout) => HasServer (MatrixFlag sym :> sublayout) where type ServerT (MatrixFlag sym :> sublayout) m = Bool -> ServerT sublayout m route Proxy subserver request respond = case parsePathInfo request of (first : _) -> do let matrixtext = parseMatrixText . encodeUtf8 $ T.tail first param = case lookup paramname matrixtext 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 route (Proxy :: Proxy sublayout) (subserver param) request respond _ -> route (Proxy :: Proxy sublayout) (subserver False) request respond 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 where type ServerT Raw m = Application route Proxy rawApplication request respond = rawApplication request (respond . succeedWith) -- | 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@. -- 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 -> EitherT ServantErr IO Book -- > postBook book = ...insert into your db... instance ( AllCTUnrender list a, HasServer sublayout ) => HasServer (ReqBody list a :> sublayout) where type ServerT (ReqBody list a :> sublayout) m = a -> ServerT sublayout m route Proxy subserver request respond = 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 mrqbody <- handleCTypeH (Proxy :: Proxy list) (cs contentTypeH) <$> lazyRequestBody request case mrqbody of Nothing -> respond . failWith $ UnsupportedMediaType Just (Left e) -> respond . failWith $ InvalidBody e Just (Right v) -> route (Proxy :: Proxy sublayout) (subserver v) request respond -- | Make sure the incoming request starts with @"/path"@, strip it and -- pass the rest of the request path to @sublayout@. instance (KnownSymbol path, HasServer sublayout) => HasServer (path :> sublayout) where type ServerT (path :> sublayout) m = ServerT sublayout m route Proxy subserver request respond = case processedPathInfo request of (first : rest) | first == cs (symbolVal proxyPath) -> route (Proxy :: Proxy sublayout) subserver request{ pathInfo = rest } respond _ -> respond $ failWith NotFound where proxyPath = Proxy :: Proxy path ct_wildcard :: B.ByteString ct_wildcard = "*" <> "/" <> "*" -- Because CPP