{-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE CPP #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ScopedTypeVariables #-} module Servant.Common.Req where #if !MIN_VERSION_base(4,8,0) import Control.Applicative #endif import Control.Exception import Control.Monad import Control.Monad.Catch (MonadThrow) import Control.Monad.IO.Class import Control.Monad.Trans.Except import Data.ByteString.Lazy hiding (pack, filter, map, null, elem) import Data.String import Data.String.Conversions import Data.Proxy import Data.Text (Text) import Data.Text.Encoding import Data.Typeable import Network.HTTP.Client hiding (Proxy, path) import Network.HTTP.Media import Network.HTTP.Types import qualified Network.HTTP.Types.Header as HTTP import Network.URI hiding (path) import Servant.API.ContentTypes import Servant.Common.BaseUrl import qualified Network.HTTP.Client as Client import Web.HttpApiData data ServantError = FailureResponse { responseStatus :: Status , responseContentType :: MediaType , responseBody :: ByteString } | DecodeFailure { decodeError :: String , responseContentType :: MediaType , responseBody :: ByteString } | UnsupportedContentType { responseContentType :: MediaType , responseBody :: ByteString } | InvalidContentTypeHeader { responseContentTypeHeader :: ByteString , responseBody :: ByteString } | ConnectionError { connectionError :: SomeException } deriving (Show, Typeable) instance Exception ServantError data Req = Req { reqPath :: String , qs :: QueryText , reqBody :: Maybe (ByteString, MediaType) , reqAccept :: [MediaType] , headers :: [(String, Text)] } defReq :: Req defReq = Req "" [] Nothing [] [] appendToPath :: String -> Req -> Req appendToPath p req = req { reqPath = reqPath req ++ "/" ++ p } appendToQueryString :: Text -- ^ param name -> Maybe Text -- ^ param value -> Req -> Req appendToQueryString pname pvalue req = req { qs = qs req ++ [(pname, pvalue)] } addHeader :: ToHttpApiData a => String -> a -> Req -> Req addHeader name val req = req { headers = headers req ++ [(name, decodeUtf8 (toHeader val))] } setRQBody :: ByteString -> MediaType -> Req -> Req setRQBody b t req = req { reqBody = Just (b, t) } reqToRequest :: (Functor m, MonadThrow m) => Req -> BaseUrl -> m Request reqToRequest req (BaseUrl reqScheme reqHost reqPort path) = setheaders . setAccept . setrqb . setQS <$> parseUrl url where url = show $ nullURI { uriScheme = case reqScheme of Http -> "http:" Https -> "https:" , uriAuthority = Just $ URIAuth { uriUserInfo = "" , uriRegName = reqHost , uriPort = ":" ++ show reqPort } , uriPath = path ++ reqPath req } setrqb r = case reqBody req of Nothing -> r Just (b,t) -> r { requestBody = RequestBodyLBS b , requestHeaders = requestHeaders r ++ [(hContentType, cs . show $ t)] } setQS = setQueryString $ queryTextToQuery (qs req) setheaders r = r { requestHeaders = requestHeaders r <> fmap toProperHeader (headers req) } setAccept r = r { requestHeaders = filter ((/= "Accept") . fst) (requestHeaders r) <> [("Accept", renderHeader $ reqAccept req) | not . null . reqAccept $ req] } toProperHeader (name, val) = (fromString name, encodeUtf8 val) -- * performing requests displayHttpRequest :: Method -> String displayHttpRequest httpmethod = "HTTP " ++ cs httpmethod ++ " request" type ClientM = ExceptT ServantError IO performRequest :: Method -> Req -> Manager -> BaseUrl -> ClientM ( Int, ByteString, MediaType , [HTTP.Header], Response ByteString) performRequest reqMethod req manager reqHost = do partialRequest <- liftIO $ reqToRequest req reqHost let request = partialRequest { Client.method = reqMethod , checkStatus = \ _status _headers _cookies -> Nothing } eResponse <- liftIO $ catchConnectionError $ Client.httpLbs request manager case eResponse of Left err -> throwE . ConnectionError $ SomeException err Right response -> do let status = Client.responseStatus response body = Client.responseBody response hdrs = Client.responseHeaders response status_code = statusCode status ct <- case lookup "Content-Type" $ Client.responseHeaders response of Nothing -> pure $ "application"//"octet-stream" Just t -> case parseAccept t of Nothing -> throwE $ InvalidContentTypeHeader (cs t) body Just t' -> pure t' unless (status_code >= 200 && status_code < 300) $ throwE $ FailureResponse status ct body return (status_code, body, ct, hdrs, response) performRequestCT :: MimeUnrender ct result => Proxy ct -> Method -> Req -> Manager -> BaseUrl -> ClientM ([HTTP.Header], result) performRequestCT ct reqMethod req manager reqHost = do let acceptCT = contentType ct (_status, respBody, respCT, hdrs, _response) <- performRequest reqMethod (req { reqAccept = [acceptCT] }) manager reqHost unless (matches respCT (acceptCT)) $ throwE $ UnsupportedContentType respCT respBody case mimeUnrender ct respBody of Left err -> throwE $ DecodeFailure err respCT respBody Right val -> return (hdrs, val) performRequestNoBody :: Method -> Req -> Manager -> BaseUrl -> ClientM [HTTP.Header] performRequestNoBody reqMethod req manager reqHost = do (_status, _body, _ct, hdrs, _response) <- performRequest reqMethod req manager reqHost return hdrs catchConnectionError :: IO a -> IO (Either ServantError a) catchConnectionError action = catch (Right <$> action) $ \e -> pure . Left . ConnectionError $ SomeException (e :: HttpException)