{-# LANGUAGE CPP #-} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE FunctionalDependencies #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PolyKinds #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE StandaloneDeriving #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE UndecidableInstances #-} {-# OPTIONS_GHC -fcontext-stack=100 #-} {-# OPTIONS_GHC -fno-warn-orphans #-} {-# OPTIONS_GHC -fno-warn-name-shadowing #-} #include "overlapping-compat.h" module Servant.ClientSpec where #if !MIN_VERSION_base(4,8,0) import Control.Applicative ((<$>)) #endif import Control.Arrow (left) import Control.Concurrent (forkIO, killThread, ThreadId) import Control.Exception (bracket) import Control.Monad.Trans.Except (ExceptT, runExceptT, throwE) import Data.Aeson hiding ((.:)) import Data.Char (chr, isPrint) import Data.Foldable (forM_) import Data.Monoid hiding (getLast) import Data.Proxy import qualified Data.Text as T import GHC.Generics (Generic) import GHC.TypeLits import qualified Network.HTTP.Client as C import Network.HTTP.Media import Network.HTTP.Types (Status (..), badRequest400, methodGet, ok200, status400) import Network.Socket import Network.Wai (Application, Request, requestHeaders, responseLBS) import Network.Wai.Handler.Warp import System.IO.Unsafe (unsafePerformIO) import Test.Hspec import Test.Hspec.QuickCheck import Test.HUnit import Test.QuickCheck import Servant.API import Servant.API.Internal.Test.ComprehensiveAPI import Servant.Client import Servant.Server import qualified Servant.Common.Req as SCR -- This declaration simply checks that all instances are in place. _ = client comprehensiveAPI spec :: Spec spec = describe "Servant.Client" $ do sucessSpec failSpec wrappedApiSpec authSpec -- * test data types data Person = Person { name :: String, age :: Integer } deriving (Eq, Show, Generic) instance ToJSON Person instance FromJSON Person instance ToFormUrlEncoded Person where toFormUrlEncoded Person{..} = [("name", T.pack name), ("age", T.pack (show age))] lookupEither :: (Show a, Eq a) => a -> [(a,b)] -> Either String b lookupEither x xs = do maybe (Left $ "could not find key " <> show x) return $ lookup x xs instance FromFormUrlEncoded Person where fromFormUrlEncoded xs = do n <- lookupEither "name" xs a <- lookupEither "age" xs return $ Person (T.unpack n) (read $ T.unpack a) alice :: Person alice = Person "Alice" 42 type TestHeaders = '[Header "X-Example1" Int, Header "X-Example2" String] type Api = "get" :> Get '[JSON] Person :<|> "deleteEmpty" :> DeleteNoContent '[JSON] NoContent :<|> "capture" :> Capture "name" String :> Get '[JSON,FormUrlEncoded] Person :<|> "body" :> ReqBody '[FormUrlEncoded,JSON] Person :> Post '[JSON] Person :<|> "param" :> QueryParam "name" String :> Get '[FormUrlEncoded,JSON] Person :<|> "params" :> QueryParams "names" String :> Get '[JSON] [Person] :<|> "flag" :> QueryFlag "flag" :> Get '[JSON] Bool :<|> "rawSuccess" :> Raw :<|> "rawFailure" :> Raw :<|> "multiple" :> Capture "first" String :> QueryParam "second" Int :> QueryFlag "third" :> ReqBody '[JSON] [(String, [Rational])] :> Get '[JSON] (String, Maybe Int, Bool, [(String, [Rational])]) :<|> "headers" :> Get '[JSON] (Headers TestHeaders Bool) :<|> "deleteContentType" :> DeleteNoContent '[JSON] NoContent api :: Proxy Api api = Proxy server :: Application server = serve api EmptyConfig ( return alice :<|> return NoContent :<|> (\ name -> return $ Person name 0) :<|> return :<|> (\ name -> case name of Just "alice" -> return alice Just n -> throwE $ ServantErr 400 (n ++ " not found") "" [] Nothing -> throwE $ ServantErr 400 "missing parameter" "" []) :<|> (\ names -> return (zipWith Person names [0..])) :<|> return :<|> (\ _request respond -> respond $ responseLBS ok200 [] "rawSuccess") :<|> (\ _request respond -> respond $ responseLBS badRequest400 [] "rawFailure") :<|> (\ a b c d -> return (a, b, c, d)) :<|> (return $ addHeader 1729 $ addHeader "eg2" True) :<|> return NoContent ) type FailApi = "get" :> Raw :<|> "capture" :> Capture "name" String :> Raw :<|> "body" :> Raw failApi :: Proxy FailApi failApi = Proxy failServer :: Application failServer = serve failApi EmptyConfig ( (\ _request respond -> respond $ responseLBS ok200 [] "") :<|> (\ _capture _request respond -> respond $ responseLBS ok200 [("content-type", "application/json")] "") :<|> (\_request respond -> respond $ responseLBS ok200 [("content-type", "fooooo")] "") ) -- auth stuff type AuthAPI = BasicAuth "foo-realm" :> "private" :> "basic" :> Get '[JSON] Person :<|> AuthProtect "auth-tag" :> "private" :> "auth" :> Get '[JSON] Person authAPI :: Proxy AuthAPI authAPI = Proxy type instance AuthReturnType (BasicAuth "foo-realm") = () type instance AuthReturnType (AuthProtect "auth-tag") = () type instance AuthClientData (AuthProtect "auth-tag") = () basicAuthHandler :: BasicAuthCheck () basicAuthHandler = let check username password = if username == "servant" && password == "server" then return (Authorized ()) else return Unauthorized in BasicAuthCheck check authHandler :: AuthHandler Request () authHandler = let handler req = case lookup "AuthHeader" (requestHeaders req) of Nothing -> throwE (err401 { errBody = "Missing auth header" , errReasonPhrase = "denied!" }) Just _ -> return () in mkAuthHandler handler serverConfig :: Config '[ BasicAuthCheck () , AuthHandler Request () ] serverConfig = basicAuthHandler :. authHandler :. EmptyConfig authServer :: Application authServer = serve authAPI serverConfig (const (return alice) :<|> const (return alice)) {- -} {-# NOINLINE manager #-} manager :: C.Manager manager = unsafePerformIO $ C.newManager C.defaultManagerSettings sucessSpec :: Spec sucessSpec = beforeAll (startWaiApp server) $ afterAll endWaiApp $ do it "Servant.API.Get" $ \(_, baseUrl) -> do let getGet = getNth (Proxy :: Proxy 0) $ client api baseUrl manager (left show <$> runExceptT getGet) `shouldReturn` Right alice describe "Servant.API.Delete" $ do it "allows empty content type" $ \(_, baseUrl) -> do let getDeleteEmpty = getNth (Proxy :: Proxy 1) $ client api baseUrl manager (left show <$> runExceptT getDeleteEmpty) `shouldReturn` Right NoContent it "allows content type" $ \(_, baseUrl) -> do let getDeleteContentType = getLast $ client api baseUrl manager (left show <$> runExceptT getDeleteContentType) `shouldReturn` Right NoContent it "Servant.API.Capture" $ \(_, baseUrl) -> do let getCapture = getNth (Proxy :: Proxy 2) $ client api baseUrl manager (left show <$> runExceptT (getCapture "Paula")) `shouldReturn` Right (Person "Paula" 0) it "Servant.API.ReqBody" $ \(_, baseUrl) -> do let p = Person "Clara" 42 getBody = getNth (Proxy :: Proxy 3) $ client api baseUrl manager (left show <$> runExceptT (getBody p)) `shouldReturn` Right p it "Servant.API.QueryParam" $ \(_, baseUrl) -> do let getQueryParam = getNth (Proxy :: Proxy 4) $ client api baseUrl manager left show <$> runExceptT (getQueryParam (Just "alice")) `shouldReturn` Right alice Left FailureResponse{..} <- runExceptT (getQueryParam (Just "bob")) responseStatus `shouldBe` Status 400 "bob not found" it "Servant.API.QueryParam.QueryParams" $ \(_, baseUrl) -> do let getQueryParams = getNth (Proxy :: Proxy 5) $ client api baseUrl manager (left show <$> runExceptT (getQueryParams [])) `shouldReturn` Right [] (left show <$> runExceptT (getQueryParams ["alice", "bob"])) `shouldReturn` Right [Person "alice" 0, Person "bob" 1] context "Servant.API.QueryParam.QueryFlag" $ forM_ [False, True] $ \ flag -> it (show flag) $ \(_, baseUrl) -> do let getQueryFlag = getNth (Proxy :: Proxy 6) $ client api baseUrl manager (left show <$> runExceptT (getQueryFlag flag)) `shouldReturn` Right flag it "Servant.API.Raw on success" $ \(_, baseUrl) -> do let getRawSuccess = getNth (Proxy :: Proxy 7) $ client api baseUrl manager res <- runExceptT (getRawSuccess methodGet) case res of Left e -> assertFailure $ show e Right (code, body, ct, _, response) -> do (code, body, ct) `shouldBe` (200, "rawSuccess", "application"//"octet-stream") C.responseBody response `shouldBe` body C.responseStatus response `shouldBe` ok200 it "Servant.API.Raw should return a Left in case of failure" $ \(_, baseUrl) -> do let getRawFailure = getNth (Proxy :: Proxy 8) $ client api baseUrl manager res <- runExceptT (getRawFailure methodGet) case res of Right _ -> assertFailure "expected Left, but got Right" Left e -> do Servant.Client.responseStatus e `shouldBe` status400 Servant.Client.responseBody e `shouldBe` "rawFailure" it "Returns headers appropriately" $ \(_, baseUrl) -> do let getRespHeaders = getNth (Proxy :: Proxy 10) $ client api baseUrl manager res <- runExceptT getRespHeaders case res of Left e -> assertFailure $ show e Right val -> getHeaders val `shouldBe` [("X-Example1", "1729"), ("X-Example2", "eg2")] modifyMaxSuccess (const 20) $ do it "works for a combination of Capture, QueryParam, QueryFlag and ReqBody" $ \(_, baseUrl) -> let getMultiple = getNth (Proxy :: Proxy 9) $ client api baseUrl manager in property $ forAllShrink pathGen shrink $ \(NonEmpty cap) num flag body -> ioProperty $ do result <- left show <$> runExceptT (getMultiple cap num flag body) return $ result === Right (cap, num, flag, body) wrappedApiSpec :: Spec wrappedApiSpec = describe "error status codes" $ do let serveW api = serve api EmptyConfig $ throwE $ ServantErr 500 "error message" "" [] context "are correctly handled by the client" $ let test :: (WrappedApi, String) -> Spec test (WrappedApi api, desc) = it desc $ bracket (startWaiApp $ serveW api) endWaiApp $ \(_, baseUrl) -> do let getResponse :: ExceptT ServantError IO () getResponse = client api baseUrl manager Left FailureResponse{..} <- runExceptT getResponse responseStatus `shouldBe` (Status 500 "error message") in mapM_ test $ (WrappedApi (Proxy :: Proxy (Delete '[JSON] ())), "Delete") : (WrappedApi (Proxy :: Proxy (Get '[JSON] ())), "Get") : (WrappedApi (Proxy :: Proxy (Post '[JSON] ())), "Post") : (WrappedApi (Proxy :: Proxy (Put '[JSON] ())), "Put") : [] failSpec :: Spec failSpec = beforeAll (startWaiApp failServer) $ afterAll endWaiApp $ do context "client returns errors appropriately" $ do it "reports FailureResponse" $ \(_, baseUrl) -> do let (_ :<|> getDeleteEmpty :<|> _) = client api baseUrl manager Left res <- runExceptT getDeleteEmpty case res of FailureResponse (Status 404 "Not Found") _ _ -> return () _ -> fail $ "expected 404 response, but got " <> show res it "reports DecodeFailure" $ \(_, baseUrl) -> do let (_ :<|> _ :<|> getCapture :<|> _) = client api baseUrl manager Left res <- runExceptT (getCapture "foo") case res of DecodeFailure _ ("application/json") _ -> return () _ -> fail $ "expected DecodeFailure, but got " <> show res it "reports ConnectionError" $ \_ -> do let (getGetWrongHost :<|> _) = client api (BaseUrl Http "127.0.0.1" 19872 "") manager Left res <- runExceptT getGetWrongHost case res of ConnectionError _ -> return () _ -> fail $ "expected ConnectionError, but got " <> show res it "reports UnsupportedContentType" $ \(_, baseUrl) -> do let (getGet :<|> _ ) = client api baseUrl manager Left res <- runExceptT getGet case res of UnsupportedContentType ("application/octet-stream") _ -> return () _ -> fail $ "expected UnsupportedContentType, but got " <> show res it "reports InvalidContentTypeHeader" $ \(_, baseUrl) -> do let (_ :<|> _ :<|> _ :<|> getBody :<|> _) = client api baseUrl manager Left res <- runExceptT (getBody alice) case res of InvalidContentTypeHeader "fooooo" _ -> return () _ -> fail $ "expected InvalidContentTypeHeader, but got " <> show res authSpec :: Spec authSpec = beforeAll (startWaiApp authServer) $ afterAll endWaiApp $ do context "Authentication works when requests are properly authenticated" $ do it "Authenticates a BasicAuth protected server appropriately" $ \(_,baseUrl) -> do let (getBasic :<|> _) = client authAPI baseUrl manager let authData = BasicAuthData "servant" "server" (left show <$> runExceptT (getBasic authData)) `shouldReturn` Right alice it "Authenticates a AuthProtect protected server appropriately" $ \(_, baseUrl) -> do let (_ :<|> getProtected) = client authAPI baseUrl manager let authRequest = mkAuthenticateReq () (\_ req -> SCR.addHeader "AuthHeader" ("cool" :: String) req) (left show <$> runExceptT (getProtected authRequest)) `shouldReturn` Right alice context "Authentication is rejected when requests are not authenticated properly" $ do it "Authenticates a BasicAuth protected server appropriately" $ \(_,baseUrl) -> do let (getBasic :<|> _) = client authAPI baseUrl manager let authData = BasicAuthData "not" "password" Left FailureResponse{..} <- runExceptT (getBasic authData) responseStatus `shouldBe` Status 403 "Forbidden" it "Authenticates a AuthProtect protected server appropriately" $ \(_, baseUrl) -> do let (_ :<|> getProtected) = client authAPI baseUrl manager let authRequest = mkAuthenticateReq () (\_ req -> SCR.addHeader "Wrong" ("header" :: String) req) Left FailureResponse{..} <- runExceptT (getProtected authRequest) responseStatus `shouldBe` (Status 401 "denied") -- * utils data WrappedApi where WrappedApi :: (HasServer (api :: *) '[], Server api ~ ExceptT ServantErr IO a, HasClient api, Client api ~ ExceptT ServantError IO ()) => Proxy api -> WrappedApi startWaiApp :: Application -> IO (ThreadId, BaseUrl) startWaiApp app = do (port, socket) <- openTestSocket let settings = setPort port $ defaultSettings thread <- forkIO $ runSettingsSocket settings socket app return (thread, BaseUrl Http "localhost" port "") endWaiApp :: (ThreadId, BaseUrl) -> IO () endWaiApp (thread, _) = killThread thread openTestSocket :: IO (Port, Socket) openTestSocket = do s <- socket AF_INET Stream defaultProtocol localhost <- inet_addr "127.0.0.1" bind s (SockAddrInet aNY_PORT localhost) listen s 1 port <- socketPort s return (fromIntegral port, s) pathGen :: Gen (NonEmptyList Char) pathGen = fmap NonEmpty path where path = listOf1 $ elements $ filter (not . (`elem` ("?%[]/#;" :: String))) $ filter isPrint $ map chr [0..127] class GetNth (n :: Nat) a b | n a -> b where getNth :: Proxy n -> a -> b instance OVERLAPPING_ GetNth 0 (x :<|> y) x where getNth _ (x :<|> _) = x instance OVERLAPPING_ (GetNth (n - 1) x y) => GetNth n (a :<|> x) y where getNth _ (_ :<|> x) = getNth (Proxy :: Proxy (n - 1)) x class GetLast a b | a -> b where getLast :: a -> b instance OVERLAPPING_ (GetLast b c) => GetLast (a :<|> b) c where getLast (_ :<|> b) = getLast b instance OVERLAPPING_ GetLast a a where getLast a = a