gRPC-haskell/examples/hellos/hellos-client/Main.hs
Connor Clark 3366dde7ab Connor/security (#68)
* begin security bindings

* secure channel creation

* SSL credentials support

* add client-side ssl support

* ssl test

* read file before passing to channel credentials, free credentials when done creating

* use localhost key/cert for test

* WIP sketch of callbacks for metadata plugins

* conversion from Haskell auth processor to C

* add test for custom server metadata auth processor

* wip auth failure test

* rebase tweak

* working test of custom auth metadata server processor

* improve security docs, clean up

* add unsafe layer client-side auth metadata plugin functionality

* add client config option for custom auth metadata

* WIP client-side metadata auth plugin. Crashing when calling C callback.

* get initial version of client-side metadata plugins working

* replace String with ByteString in a few places, add function for getting AuthProperty

* AuthContext utilities and more documentation

* end-to-end test of client and server auth plugins

* remove redundant tests

* function for parents in unary calls, add deactivated failing test for auth metadata propagation from parent to child

* some cleanup

* tweaks

* more tweaks

* remove unused file

* docs tweak

* consolidate exports

* update protobuf-wire commit
2016-08-17 09:55:06 -07:00

123 lines
4.9 KiB
Haskell

{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE ViewPatterns #-}
{-# OPTIONS_GHC -fno-warn-unused-binds #-}
import Control.Concurrent.Async
import Control.Monad
import qualified Data.ByteString.Lazy as BL
import Data.Function
import Data.Protobuf.Wire.Class
import qualified Data.Text as T
import Data.Word
import GHC.Generics (Generic)
import Network.GRPC.LowLevel
helloSS, helloCS, helloBi :: MethodName
helloSS = MethodName "/hellos.Hellos/HelloSS"
helloCS = MethodName "/hellos.Hellos/HelloCS"
helloBi = MethodName "/hellos.Hellos/HelloBi"
data SSRqt = SSRqt { ssName :: T.Text, ssNumReplies :: Word32 } deriving (Show, Eq, Ord, Generic)
instance Message SSRqt
data SSRpy = SSRpy { ssGreeting :: T.Text } deriving (Show, Eq, Ord, Generic)
instance Message SSRpy
data CSRqt = CSRqt { csMessage :: T.Text } deriving (Show, Eq, Ord, Generic)
instance Message CSRqt
data CSRpy = CSRpy { csNumRequests :: Word32 } deriving (Show, Eq, Ord, Generic)
instance Message CSRpy
data BiRqtRpy = BiRqtRpy { biMessage :: T.Text } deriving (Show, Eq, Ord, Generic)
instance Message BiRqtRpy
expect :: (Eq a, Monad m, Show a) => String -> a -> a -> m ()
expect ctx ex got
| ex /= got = fail $ ctx ++ " error: expected " ++ show ex ++ ", got " ++ show got
| otherwise = return ()
doHelloSS :: Client -> Int -> IO ()
doHelloSS c n = do
rm <- clientRegisterMethodServerStreaming c helloSS
let pay = SSRqt "server streaming mode" (fromIntegral n)
enc = BL.toStrict . toLazyByteString $ pay
err desc e = fail $ "doHelloSS: " ++ desc ++ " error: " ++ show e
eea <- clientReader c rm n enc mempty $ \_md recv -> do
n' <- flip fix (0::Int) $ \go i -> recv >>= \case
Left e -> err "recv" e
Right Nothing -> return i
Right (Just bs) -> case fromByteString bs of
Left e -> err "decoding" e
Right r -> expect "doHelloSS/rpy" expay (ssGreeting r) >> go (i+1)
expect "doHelloSS/cnt" n n'
case eea of
Left e -> err "clientReader" e
Right (_, st, _)
| st /= StatusOk -> fail "clientReader: non-OK status"
| otherwise -> putStrLn "doHelloSS: RPC successful"
where
expay = "Hello there, server streaming mode!"
doHelloCS :: Client -> Int -> IO ()
doHelloCS c n = do
rm <- clientRegisterMethodClientStreaming c helloCS
let pay = CSRqt "client streaming payload"
enc = BL.toStrict . toLazyByteString $ pay
eea <- clientWriter c rm n mempty $ \send ->
replicateM_ n $ send enc >>= \case
Left e -> fail $ "doHelloCS: send error: " ++ show e
Right{} -> return ()
case eea of
Left e -> fail $ "clientWriter error: " ++ show e
Right (Nothing, _, _, _, _) -> fail "clientWriter error: no reply payload"
Right (Just bs, _init, _trail, st, _dtls)
| st /= StatusOk -> fail "clientWriter: non-OK status"
| otherwise -> case fromByteString bs of
Left e -> fail $ "Decoding error: " ++ show e
Right dec -> do
expect "doHelloCS/cnt" (fromIntegral n) (csNumRequests dec)
putStrLn "doHelloCS: RPC successful"
doHelloBi :: Client -> Int -> IO ()
doHelloBi c n = do
rm <- clientRegisterMethodBiDiStreaming c helloBi
let pay = BiRqtRpy "bidi payload"
enc = BL.toStrict . toLazyByteString $ pay
err desc e = fail $ "doHelloBi: " ++ desc ++ " error: " ++ show e
eea <- clientRW c rm n mempty $ \_getMD recv send writesDone -> do
-- perform n writes on a worker thread
thd <- async $ do
replicateM_ n $ send enc >>= \case
Left e -> err "send" e
_ -> return ()
writesDone >>= \case
Left e -> err "writesDone" e
_ -> return ()
-- perform reads on this thread until the stream is terminated
-- emd <- getMD; putStrLn ("getMD result: " ++ show emd)
fix $ \go -> recv >>= \case
Left e -> err "recv" e
Right Nothing -> return ()
Right (Just bs) -> case fromByteString bs of
Left e -> err "decoding" e
Right r -> when (r /= pay) (fail "Reply payload mismatch") >> go
wait thd
case eea of
Left e -> err "clientRW'" e
Right (_, st, _) -> do
when (st /= StatusOk) $ fail $ "clientRW: non-OK status: " ++ show st
putStrLn "doHelloBi: RPC successful"
highlevelMain :: IO ()
highlevelMain = withGRPC $ \g ->
withClient g (ClientConfig "localhost" 50051 [] Nothing) $ \c -> do
let n = 100000
putStrLn "-------------- HelloSS --------------"
doHelloSS c n
putStrLn "-------------- HelloCS --------------"
doHelloCS c n
putStrLn "-------------- HelloBi --------------"
doHelloBi c n
main :: IO ()
main = highlevelMain